explain any three problem solving aspects

What is Problem Solving? (Steps, Techniques, Examples)

By Status.net Editorial Team on May 7, 2023 — 5 minutes to read

What Is Problem Solving?

Definition and importance.

Problem solving is the process of finding solutions to obstacles or challenges you encounter in your life or work. It is a crucial skill that allows you to tackle complex situations, adapt to changes, and overcome difficulties with ease. Mastering this ability will contribute to both your personal and professional growth, leading to more successful outcomes and better decision-making.

Problem-Solving Steps

The problem-solving process typically includes the following steps:

Identify the issue : Recognize the problem that needs to be solved.
Analyze the situation : Examine the issue in depth, gather all relevant information, and consider any limitations or constraints that may be present.
Generate potential solutions : Brainstorm a list of possible solutions to the issue, without immediately judging or evaluating them.
Evaluate options : Weigh the pros and cons of each potential solution, considering factors such as feasibility, effectiveness, and potential risks.
Select the best solution : Choose the option that best addresses the problem and aligns with your objectives.
Implement the solution : Put the selected solution into action and monitor the results to ensure it resolves the issue.
Review and learn : Reflect on the problem-solving process, identify any improvements or adjustments that can be made, and apply these learnings to future situations.

Defining the Problem

To start tackling a problem, first, identify and understand it. Analyzing the issue thoroughly helps to clarify its scope and nature. Ask questions to gather information and consider the problem from various angles. Some strategies to define the problem include:

Brainstorming with others
Asking the 5 Ws and 1 H (Who, What, When, Where, Why, and How)
Analyzing cause and effect
Creating a problem statement

Generating Solutions

Once the problem is clearly understood, brainstorm possible solutions. Think creatively and keep an open mind, as well as considering lessons from past experiences. Consider:

Creating a list of potential ideas to solve the problem
Grouping and categorizing similar solutions
Prioritizing potential solutions based on feasibility, cost, and resources required
Involving others to share diverse opinions and inputs

Evaluating and Selecting Solutions

Evaluate each potential solution, weighing its pros and cons. To facilitate decision-making, use techniques such as:

SWOT analysis (Strengths, Weaknesses, Opportunities, Threats)
Decision-making matrices
Pros and cons lists
Risk assessments

After evaluating, choose the most suitable solution based on effectiveness, cost, and time constraints.

Implementing and Monitoring the Solution

Implement the chosen solution and monitor its progress. Key actions include:

Communicating the solution to relevant parties
Setting timelines and milestones
Assigning tasks and responsibilities
Monitoring the solution and making adjustments as necessary
Evaluating the effectiveness of the solution after implementation

Utilize feedback from stakeholders and consider potential improvements. Remember that problem-solving is an ongoing process that can always be refined and enhanced.

Problem-Solving Techniques

During each step, you may find it helpful to utilize various problem-solving techniques, such as:

Brainstorming : A free-flowing, open-minded session where ideas are generated and listed without judgment, to encourage creativity and innovative thinking.
Root cause analysis : A method that explores the underlying causes of a problem to find the most effective solution rather than addressing superficial symptoms.
SWOT analysis : A tool used to evaluate the strengths, weaknesses, opportunities, and threats related to a problem or decision, providing a comprehensive view of the situation.
Mind mapping : A visual technique that uses diagrams to organize and connect ideas, helping to identify patterns, relationships, and possible solutions.

Brainstorming

When facing a problem, start by conducting a brainstorming session. Gather your team and encourage an open discussion where everyone contributes ideas, no matter how outlandish they may seem. This helps you:

Generate a diverse range of solutions
Encourage all team members to participate
Foster creative thinking

When brainstorming, remember to:

Reserve judgment until the session is over
Encourage wild ideas
Combine and improve upon ideas

Root Cause Analysis

For effective problem-solving, identifying the root cause of the issue at hand is crucial. Try these methods:

5 Whys : Ask “why” five times to get to the underlying cause.
Fishbone Diagram : Create a diagram representing the problem and break it down into categories of potential causes.
Pareto Analysis : Determine the few most significant causes underlying the majority of problems.

SWOT Analysis

SWOT analysis helps you examine the Strengths, Weaknesses, Opportunities, and Threats related to your problem. To perform a SWOT analysis:

List your problem’s strengths, such as relevant resources or strong partnerships.
Identify its weaknesses, such as knowledge gaps or limited resources.
Explore opportunities, like trends or new technologies, that could help solve the problem.
Recognize potential threats, like competition or regulatory barriers.

SWOT analysis aids in understanding the internal and external factors affecting the problem, which can help guide your solution.

Mind Mapping

A mind map is a visual representation of your problem and potential solutions. It enables you to organize information in a structured and intuitive manner. To create a mind map:

Write the problem in the center of a blank page.
Draw branches from the central problem to related sub-problems or contributing factors.
Add more branches to represent potential solutions or further ideas.

Mind mapping allows you to visually see connections between ideas and promotes creativity in problem-solving.

Examples of Problem Solving in Various Contexts

In the business world, you might encounter problems related to finances, operations, or communication. Applying problem-solving skills in these situations could look like:

Identifying areas of improvement in your company’s financial performance and implementing cost-saving measures
Resolving internal conflicts among team members by listening and understanding different perspectives, then proposing and negotiating solutions
Streamlining a process for better productivity by removing redundancies, automating tasks, or re-allocating resources

In educational contexts, problem-solving can be seen in various aspects, such as:

Addressing a gap in students’ understanding by employing diverse teaching methods to cater to different learning styles
Developing a strategy for successful time management to balance academic responsibilities and extracurricular activities
Seeking resources and support to provide equal opportunities for learners with special needs or disabilities

Everyday life is full of challenges that require problem-solving skills. Some examples include:

Overcoming a personal obstacle, such as improving your fitness level, by establishing achievable goals, measuring progress, and adjusting your approach accordingly
Navigating a new environment or city by researching your surroundings, asking for directions, or using technology like GPS to guide you
Dealing with a sudden change, like a change in your work schedule, by assessing the situation, identifying potential impacts, and adapting your plans to accommodate the change.
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The Three Stages of the Problem-Solving Cycle

Essentially every problem-solving heuristic in mathematics goes back to George Polya’s How to Solve It ; my approach is no exception. However, this cyclic description might help to keep the process cognitively present.

A few months ago, I produced a video describing this the three stages of the problem-solving cycle: Understand, Strategize, and Implement. That is, we must first understand the problem, then we think of strategies that might help solve the problem, and finally we implement those strategies and see where they lead us. During two decades of observing myself and others in the teaching and learning process, I’ve noticed that the most neglected phase is often the first one—understanding the problem.

The Three Stages Explained

What am I looking for?
What is the unknown?
Do I understand every word and concept in the problem?
Am I familiar with the units in which measurements are given?
Is there information that seems missing?
Is there information that seems superfluous?
Is the source of information bona fide? (Think about those instances when a friend gives you a puzzle to solve and you suspect there’s something wrong with the way the puzzle is posed.)
Logical reasoning
Pattern recognition
Working backwards
Adopting a different point of view
Considering extreme cases
Solving a simpler analogous problem
Organizing data
Making a visual representation
Accounting for all possibilities
Intelligent guessing and testing

I have produced videos explaining each one of these strategies individually using problems we have solved at the Chapel Hill Math Circle.

Implementing : We now implement our strategy or set of strategies. As we progress, we check our reasoning and computations (if any). Many novice problem-solvers make the mistake of “doing something” before understanding (or at least thinking they understand) the problem. For instance, if you ask them “What are you looking for?”, they might not be able to answer. Certainly, it is possible to have an incorrect understanding of the problem, but that is different from not even realizing that we have to understand the problem before we attempt to solve it!

As we implement our strategies, we might not be able to solve the problem, but we might refine our understanding of the problem. As we refine our understanding of the problem, we can refine our strategy. As we refine our strategy and implement a new approach, we get closer to solving the problem, and so on. Of course, even after several iterations of this cycle spanning across hours, days, or even years, one may still not be able to solve a particular problem. That’s part of the enchanting beauty of mathematics.

I invite you to observe your own thinking—and that of your students—as you move along the problem-solving cycle!

[1] Problem-Solving Strategies in Mathematics , Posamentier and Krulik, 2015.

About the author: You may contact Hector Rosario at [email protected].

What Is Problem Solving?

By the Mind Tools Content Team

explain any three problem solving aspects

We all spend a lot of our time solving problems, both at work and in our personal lives.

Some problems are small, and we can quickly sort them out ourselves. But others are complex challenges that take collaboration, creativity, and a considerable amount of effort to solve.

At work, the types of problems we face depend largely on the organizations we're in and the jobs we do. A manager in a cleaning company, for example, might spend their day untangling staffing issues, resolving client complaints, and sorting out problems with equipment and supplies. An aircraft designer, on the other hand, might be grappling with a problem about aerodynamics, or trying to work out why a new safety feature isn't working. Meanwhile, a politician might be exploring solutions to racial injustice or climate change.

But whatever issues we face, there are some common ways to tackle them effectively. And we can all boost our confidence and ability to succeed by building a strong set of problem-solving skills.

Mind Tools offers a large collection of resources to help you do just that!

How Well Do You Solve Problems?

Start by taking an honest look at your existing skills. What's your current approach to solving problems, and how well is it working? Our quiz, How Good Is Your Problem Solving? lets you analyze your abilities, and signposts ways to address any areas of weakness.

Define Every Problem

The first step in solving a problem is understanding what that problem actually is. You need to be sure that you're dealing with the real problem – not its symptoms. For example, if performance in your department is substandard, you might think that the problem lies with the individuals submitting work. However, if you look a bit deeper, the real issue might be a general lack of training, or an unreasonable workload across the team.

Tools like 5 Whys , Appreciation and Root Cause Analysis get you asking the right questions, and help you to work through the layers of a problem to uncover what's really going on.

However, defining a problem doesn't mean deciding how to solve it straightaway. It's important to look at the issue from a variety of perspectives. If you commit yourself too early, you can end up with a short-sighted solution. The CATWOE checklist provides a powerful reminder to look at many elements that may contribute to the problem, keeping you open to a variety of possible solutions.

Understanding Complexity

As you define your problem, you'll often discover just how complicated it is. There are likely several interrelated issues involved. That's why it's important to have ways to visualize, simplify and make sense of this tangled mess!

Affinity Diagrams are great for organizing many different pieces of information into common themes, and for understanding the relationships between them.

Another popular tool is the Cause-and-Effect Diagram . To generate viable solutions, you need a solid understanding of what's causing the problem.

When your problem occurs within a business process, creating a Flow Chart , Swim Lane Diagram or a Systems Diagram will help you to see how various activities and inputs fit together. This may well highlight a missing element or bottleneck that's causing your problem.

Quite often, what seems to be a single problem turns out to be a whole series of problems. The Drill Down technique prompts you to split your problem into smaller, more manageable parts.

General Problem-Solving Tools

When you understand the problem in front of you, you’re ready to start solving it. With your definition to guide you, you can generate several possible solutions, choose the best one, then put it into action. That's the four-step approach at the heart of good problem solving.

There are various problem-solving styles to use. For example:

Constructive Controversy is a way of widening perspectives and energizing discussions.
Inductive Reasoning makes the most of people’s experiences and know-how, and can speed up solution finding.
Means-End Analysis can bring extra clarity to your thinking, and kick-start the process of implementing solutions.

Specific Problem-Solving Systems

Some particularly complicated or important problems call for a more comprehensive process. Again, Mind Tools has a range of approaches to try, including:

Simplex , which involves an eight-stage process: problem finding, fact finding, defining the problem, idea finding, selecting and evaluating, planning, selling the idea, and acting. These steps build upon the basic, four-step process described above, and they create a cycle of problem finding and solving that will continually improve your organization.
Appreciative Inquiry , which is a uniquely positive way of solving problems by examining what's working well in the areas surrounding them.
Soft Systems Methodology , which takes you through four stages to uncover more details about what's creating your problem, and then define actions that will improve the situation.

Further Problem-Solving Strategies

Good problem solving requires a number of other skills – all of which are covered by Mind Tools.

For example, we have a large section of resources to improve your Creativity , so that you come up with a range of possible solutions.

By strengthening your Decision Making , you'll be better at evaluating the options, selecting the best ones, then choosing how to implement them.

And our Project Management collection has valuable advice for strengthening the whole problem-solving process. The resources there will help you to make effective changes – and then keep them working long term.

Problems are an inescapable part of life, both in and out of work. So we can all benefit from having strong problem-solving skills.

It's important to understand your current approach to problem solving, and to know where and how to improve.

Define every problem you encounter – and understand its complexity, rather than trying to solve it too soon.

There's a range of general problem-solving approaches, helping you to generate possible answers, choose the best ones, and then implement your solution.

Some complicated or serious problems require more specific problem-solving systems, especially when they relate to business processes.

By boosting your creativity, decision-making and project-management skills, you’ll become even better at solving all the problems you face.

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7.3 Problem-Solving

Learning objectives.

By the end of this section, you will be able to:

Describe problem solving strategies
Define algorithm and heuristic
Explain some common roadblocks to effective problem solving

People face problems every day—usually, multiple problems throughout the day. Sometimes these problems are straightforward: To double a recipe for pizza dough, for example, all that is required is that each ingredient in the recipe be doubled. Sometimes, however, the problems we encounter are more complex. For example, say you have a work deadline, and you must mail a printed copy of a report to your supervisor by the end of the business day. The report is time-sensitive and must be sent overnight. You finished the report last night, but your printer will not work today. What should you do? First, you need to identify the problem and then apply a strategy for solving the problem.

The study of human and animal problem solving processes has provided much insight toward the understanding of our conscious experience and led to advancements in computer science and artificial intelligence. Essentially much of cognitive science today represents studies of how we consciously and unconsciously make decisions and solve problems. For instance, when encountered with a large amount of information, how do we go about making decisions about the most efficient way of sorting and analyzing all the information in order to find what you are looking for as in visual search paradigms in cognitive psychology. Or in a situation where a piece of machinery is not working properly, how do we go about organizing how to address the issue and understand what the cause of the problem might be. How do we sort the procedures that will be needed and focus attention on what is important in order to solve problems efficiently. Within this section we will discuss some of these issues and examine processes related to human, animal and computer problem solving.

PROBLEM-SOLVING STRATEGIES

When people are presented with a problem—whether it is a complex mathematical problem or a broken printer, how do you solve it? Before finding a solution to the problem, the problem must first be clearly identified. After that, one of many problem solving strategies can be applied, hopefully resulting in a solution.

Problems themselves can be classified into two different categories known as ill-defined and well-defined problems (Schacter, 2009). Ill-defined problems represent issues that do not have clear goals, solution paths, or expected solutions whereas well-defined problems have specific goals, clearly defined solutions, and clear expected solutions. Problem solving often incorporates pragmatics (logical reasoning) and semantics (interpretation of meanings behind the problem), and also in many cases require abstract thinking and creativity in order to find novel solutions. Within psychology, problem solving refers to a motivational drive for reading a definite “goal” from a present situation or condition that is either not moving toward that goal, is distant from it, or requires more complex logical analysis for finding a missing description of conditions or steps toward that goal. Processes relating to problem solving include problem finding also known as problem analysis, problem shaping where the organization of the problem occurs, generating alternative strategies, implementation of attempted solutions, and verification of the selected solution. Various methods of studying problem solving exist within the field of psychology including introspection, behavior analysis and behaviorism, simulation, computer modeling, and experimentation.

A problem-solving strategy is a plan of action used to find a solution. Different strategies have different action plans associated with them (table below). For example, a well-known strategy is trial and error. The old adage, “If at first you don’t succeed, try, try again” describes trial and error. In terms of your broken printer, you could try checking the ink levels, and if that doesn’t work, you could check to make sure the paper tray isn’t jammed. Or maybe the printer isn’t actually connected to your laptop. When using trial and error, you would continue to try different solutions until you solved your problem. Although trial and error is not typically one of the most time-efficient strategies, it is a commonly used one.

Another type of strategy is an algorithm. An algorithm is a problem-solving formula that provides you with step-by-step instructions used to achieve a desired outcome (Kahneman, 2011). You can think of an algorithm as a recipe with highly detailed instructions that produce the same result every time they are performed. Algorithms are used frequently in our everyday lives, especially in computer science. When you run a search on the Internet, search engines like Google use algorithms to decide which entries will appear first in your list of results. Facebook also uses algorithms to decide which posts to display on your newsfeed. Can you identify other situations in which algorithms are used?

A heuristic is another type of problem solving strategy. While an algorithm must be followed exactly to produce a correct result, a heuristic is a general problem-solving framework (Tversky & Kahneman, 1974). You can think of these as mental shortcuts that are used to solve problems. A “rule of thumb” is an example of a heuristic. Such a rule saves the person time and energy when making a decision, but despite its time-saving characteristics, it is not always the best method for making a rational decision. Different types of heuristics are used in different types of situations, but the impulse to use a heuristic occurs when one of five conditions is met (Pratkanis, 1989):

When one is faced with too much information
When the time to make a decision is limited
When the decision to be made is unimportant
When there is access to very little information to use in making the decision
When an appropriate heuristic happens to come to mind in the same moment

Working backwards is a useful heuristic in which you begin solving the problem by focusing on the end result. Consider this example: You live in Washington, D.C. and have been invited to a wedding at 4 PM on Saturday in Philadelphia. Knowing that Interstate 95 tends to back up any day of the week, you need to plan your route and time your departure accordingly. If you want to be at the wedding service by 3:30 PM, and it takes 2.5 hours to get to Philadelphia without traffic, what time should you leave your house? You use the working backwards heuristic to plan the events of your day on a regular basis, probably without even thinking about it.

Another useful heuristic is the practice of accomplishing a large goal or task by breaking it into a series of smaller steps. Students often use this common method to complete a large research project or long essay for school. For example, students typically brainstorm, develop a thesis or main topic, research the chosen topic, organize their information into an outline, write a rough draft, revise and edit the rough draft, develop a final draft, organize the references list, and proofread their work before turning in the project. The large task becomes less overwhelming when it is broken down into a series of small steps.

Further problem solving strategies have been identified (listed below) that incorporate flexible and creative thinking in order to reach solutions efficiently.

Additional Problem Solving Strategies :

Abstraction – refers to solving the problem within a model of the situation before applying it to reality.
Analogy – is using a solution that solves a similar problem.
Brainstorming – refers to collecting an analyzing a large amount of solutions, especially within a group of people, to combine the solutions and developing them until an optimal solution is reached.
Divide and conquer – breaking down large complex problems into smaller more manageable problems.
Hypothesis testing – method used in experimentation where an assumption about what would happen in response to manipulating an independent variable is made, and analysis of the affects of the manipulation are made and compared to the original hypothesis.
Lateral thinking – approaching problems indirectly and creatively by viewing the problem in a new and unusual light.
Means-ends analysis – choosing and analyzing an action at a series of smaller steps to move closer to the goal.
Method of focal objects – putting seemingly non-matching characteristics of different procedures together to make something new that will get you closer to the goal.
Morphological analysis – analyzing the outputs of and interactions of many pieces that together make up a whole system.
Proof – trying to prove that a problem cannot be solved. Where the proof fails becomes the starting point or solving the problem.
Reduction – adapting the problem to be as similar problems where a solution exists.
Research – using existing knowledge or solutions to similar problems to solve the problem.
Root cause analysis – trying to identify the cause of the problem.

The strategies listed above outline a short summary of methods we use in working toward solutions and also demonstrate how the mind works when being faced with barriers preventing goals to be reached.

One example of means-end analysis can be found by using the Tower of Hanoi paradigm . This paradigm can be modeled as a word problems as demonstrated by the Missionary-Cannibal Problem :

Missionary-Cannibal Problem

Three missionaries and three cannibals are on one side of a river and need to cross to the other side. The only means of crossing is a boat, and the boat can only hold two people at a time. Your goal is to devise a set of moves that will transport all six of the people across the river, being in mind the following constraint: The number of cannibals can never exceed the number of missionaries in any location. Remember that someone will have to also row that boat back across each time.

Hint : At one point in your solution, you will have to send more people back to the original side than you just sent to the destination.

The actual Tower of Hanoi problem consists of three rods sitting vertically on a base with a number of disks of different sizes that can slide onto any rod. The puzzle starts with the disks in a neat stack in ascending order of size on one rod, the smallest at the top making a conical shape. The objective of the puzzle is to move the entire stack to another rod obeying the following rules:

1. Only one disk can be moved at a time.
2. Each move consists of taking the upper disk from one of the stacks and placing it on top of another stack or on an empty rod.
3. No disc may be placed on top of a smaller disk.

Figure 7.02. Steps for solving the Tower of Hanoi in the minimum number of moves when there are 3 disks.

Figure 7.03. Graphical representation of nodes (circles) and moves (lines) of Tower of Hanoi.

The Tower of Hanoi is a frequently used psychological technique to study problem solving and procedure analysis. A variation of the Tower of Hanoi known as the Tower of London has been developed which has been an important tool in the neuropsychological diagnosis of executive function disorders and their treatment.

GESTALT PSYCHOLOGY AND PROBLEM SOLVING

As you may recall from the sensation and perception chapter, Gestalt psychology describes whole patterns, forms and configurations of perception and cognition such as closure, good continuation, and figure-ground. In addition to patterns of perception, Wolfgang Kohler, a German Gestalt psychologist traveled to the Spanish island of Tenerife in order to study animals behavior and problem solving in the anthropoid ape.

As an interesting side note to Kohler’s studies of chimp problem solving, Dr. Ronald Ley, professor of psychology at State University of New York provides evidence in his book A Whisper of Espionage (1990) suggesting that while collecting data for what would later be his book The Mentality of Apes (1925) on Tenerife in the Canary Islands between 1914 and 1920, Kohler was additionally an active spy for the German government alerting Germany to ships that were sailing around the Canary Islands. Ley suggests his investigations in England, Germany and elsewhere in Europe confirm that Kohler had served in the German military by building, maintaining and operating a concealed radio that contributed to Germany’s war effort acting as a strategic outpost in the Canary Islands that could monitor naval military activity approaching the north African coast.

While trapped on the island over the course of World War 1, Kohler applied Gestalt principles to animal perception in order to understand how they solve problems. He recognized that the apes on the islands also perceive relations between stimuli and the environment in Gestalt patterns and understand these patterns as wholes as opposed to pieces that make up a whole. Kohler based his theories of animal intelligence on the ability to understand relations between stimuli, and spent much of his time while trapped on the island investigation what he described as insight , the sudden perception of useful or proper relations. In order to study insight in animals, Kohler would present problems to chimpanzee’s by hanging some banana’s or some kind of food so it was suspended higher than the apes could reach. Within the room, Kohler would arrange a variety of boxes, sticks or other tools the chimpanzees could use by combining in patterns or organizing in a way that would allow them to obtain the food (Kohler & Winter, 1925).

While viewing the chimpanzee’s, Kohler noticed one chimp that was more efficient at solving problems than some of the others. The chimp, named Sultan, was able to use long poles to reach through bars and organize objects in specific patterns to obtain food or other desirables that were originally out of reach. In order to study insight within these chimps, Kohler would remove objects from the room to systematically make the food more difficult to obtain. As the story goes, after removing many of the objects Sultan was used to using to obtain the food, he sat down ad sulked for a while, and then suddenly got up going over to two poles lying on the ground. Without hesitation Sultan put one pole inside the end of the other creating a longer pole that he could use to obtain the food demonstrating an ideal example of what Kohler described as insight. In another situation, Sultan discovered how to stand on a box to reach a banana that was suspended from the rafters illustrating Sultan’s perception of relations and the importance of insight in problem solving.

Grande (another chimp in the group studied by Kohler) builds a three-box structure to reach the bananas, while Sultan watches from the ground. Insight , sometimes referred to as an “Ah-ha” experience, was the term Kohler used for the sudden perception of useful relations among objects during problem solving (Kohler, 1927; Radvansky & Ashcraft, 2013).

Solving puzzles.

Problem-solving abilities can improve with practice. Many people challenge themselves every day with puzzles and other mental exercises to sharpen their problem-solving skills. Sudoku puzzles appear daily in most newspapers. Typically, a sudoku puzzle is a 9×9 grid. The simple sudoku below (see figure) is a 4×4 grid. To solve the puzzle, fill in the empty boxes with a single digit: 1, 2, 3, or 4. Here are the rules: The numbers must total 10 in each bolded box, each row, and each column; however, each digit can only appear once in a bolded box, row, and column. Time yourself as you solve this puzzle and compare your time with a classmate.

How long did it take you to solve this sudoku puzzle? (You can see the answer at the end of this section.)

Here is another popular type of puzzle (figure below) that challenges your spatial reasoning skills. Connect all nine dots with four connecting straight lines without lifting your pencil from the paper:

Did you figure it out? (The answer is at the end of this section.) Once you understand how to crack this puzzle, you won’t forget.

Take a look at the “Puzzling Scales” logic puzzle below (figure below). Sam Loyd, a well-known puzzle master, created and refined countless puzzles throughout his lifetime (Cyclopedia of Puzzles, n.d.).

A puzzle involving a scale is shown. At the top of the figure it reads: “Sam Loyds Puzzling Scales.” The first row of the puzzle shows a balanced scale with 3 blocks and a top on the left and 12 marbles on the right. Below this row it reads: “Since the scales now balance.” The next row of the puzzle shows a balanced scale with just the top on the left, and 1 block and 8 marbles on the right. Below this row it reads: “And balance when arranged this way.” The third row shows an unbalanced scale with the top on the left side, which is much lower than the right side. The right side is empty. Below this row it reads: “Then how many marbles will it require to balance with that top?”

What steps did you take to solve this puzzle? You can read the solution at the end of this section.

Pitfalls to problem solving.

Functional fixedness is a type of mental set where you cannot perceive an object being used for something other than what it was designed for. During the Apollo 13 mission to the moon, NASA engineers at Mission Control had to overcome functional fixedness to save the lives of the astronauts aboard the spacecraft. An explosion in a module of the spacecraft damaged multiple systems. The astronauts were in danger of being poisoned by rising levels of carbon dioxide because of problems with the carbon dioxide filters. The engineers found a way for the astronauts to use spare plastic bags, tape, and air hoses to create a makeshift air filter, which saved the lives of the astronauts.

Researchers have investigated whether functional fixedness is affected by culture. In one experiment, individuals from the Shuar group in Ecuador were asked to use an object for a purpose other than that for which the object was originally intended. For example, the participants were told a story about a bear and a rabbit that were separated by a river and asked to select among various objects, including a spoon, a cup, erasers, and so on, to help the animals. The spoon was the only object long enough to span the imaginary river, but if the spoon was presented in a way that reflected its normal usage, it took participants longer to choose the spoon to solve the problem. (German & Barrett, 2005). The researchers wanted to know if exposure to highly specialized tools, as occurs with individuals in industrialized nations, affects their ability to transcend functional fixedness. It was determined that functional fixedness is experienced in both industrialized and nonindustrialized cultures (German & Barrett, 2005).

In order to make good decisions, we use our knowledge and our reasoning. Often, this knowledge and reasoning is sound and solid. Sometimes, however, we are swayed by biases or by others manipulating a situation. For example, let’s say you and three friends wanted to rent a house and had a combined target budget of $1,600. The realtor shows you only very run-down houses for $1,600 and then shows you a very nice house for $2,000. Might you ask each person to pay more in rent to get the $2,000 home? Why would the realtor show you the run-down houses and the nice house? The realtor may be challenging your anchoring bias. An anchoring bias occurs when you focus on one piece of information when making a decision or solving a problem. In this case, you’re so focused on the amount of money you are willing to spend that you may not recognize what kinds of houses are available at that price point.

The confirmation bias is the tendency to focus on information that confirms your existing beliefs. For example, if you think that your professor is not very nice, you notice all of the instances of rude behavior exhibited by the professor while ignoring the countless pleasant interactions he is involved in on a daily basis. Hindsight bias leads you to believe that the event you just experienced was predictable, even though it really wasn’t. In other words, you knew all along that things would turn out the way they did. Representative bias describes a faulty way of thinking, in which you unintentionally stereotype someone or something; for example, you may assume that your professors spend their free time reading books and engaging in intellectual conversation, because the idea of them spending their time playing volleyball or visiting an amusement park does not fit in with your stereotypes of professors.

Finally, the availability heuristic is a heuristic in which you make a decision based on an example, information, or recent experience that is that readily available to you, even though it may not be the best example to inform your decision . Biases tend to “preserve that which is already established—to maintain our preexisting knowledge, beliefs, attitudes, and hypotheses” (Aronson, 1995; Kahneman, 2011). These biases are summarized in the table below.

Were you able to determine how many marbles are needed to balance the scales in the figure below? You need nine. Were you able to solve the problems in the figures above? Here are the answers.

The first puzzle is a Sudoku grid of 16 squares (4 rows of 4 squares) is shown. Half of the numbers were supplied to start the puzzle and are colored blue, and half have been filled in as the puzzle’s solution and are colored red. The numbers in each row of the grid, left to right, are as follows. Row 1: blue 3, red 1, red 4, blue 2. Row 2: red 2, blue 4, blue 1, red 3. Row 3: red 1, blue 3, blue 2, red 4. Row 4: blue 4, red 2, red 3, blue 1.The second puzzle consists of 9 dots arranged in 3 rows of 3 inside of a square. The solution, four straight lines made without lifting the pencil, is shown in a red line with arrows indicating the direction of movement. In order to solve the puzzle, the lines must extend beyond the borders of the box. The four connecting lines are drawn as follows. Line 1 begins at the top left dot, proceeds through the middle and right dots of the top row, and extends to the right beyond the border of the square. Line 2 extends from the end of line 1, through the right dot of the horizontally centered row, through the middle dot of the bottom row, and beyond the square’s border ending in the space beneath the left dot of the bottom row. Line 3 extends from the end of line 2 upwards through the left dots of the bottom, middle, and top rows. Line 4 extends from the end of line 3 through the middle dot in the middle row and ends at the right dot of the bottom row.

Many different strategies exist for solving problems. Typical strategies include trial and error, applying algorithms, and using heuristics. To solve a large, complicated problem, it often helps to break the problem into smaller steps that can be accomplished individually, leading to an overall solution. Roadblocks to problem solving include a mental set, functional fixedness, and various biases that can cloud decision making skills.

References:

Openstax Psychology text by Kathryn Dumper, William Jenkins, Arlene Lacombe, Marilyn Lovett and Marion Perlmutter licensed under CC BY v4.0. https://openstax.org/details/books/psychology

Review Questions:

1. A specific formula for solving a problem is called ________.

a. an algorithm

b. a heuristic

c. a mental set

d. trial and error

2. Solving the Tower of Hanoi problem tends to utilize a ________ strategy of problem solving.

a. divide and conquer

b. means-end analysis

d. experiment

3. A mental shortcut in the form of a general problem-solving framework is called ________.

4. Which type of bias involves becoming fixated on a single trait of a problem?

a. anchoring bias

b. confirmation bias

c. representative bias

d. availability bias

5. Which type of bias involves relying on a false stereotype to make a decision?

6. Wolfgang Kohler analyzed behavior of chimpanzees by applying Gestalt principles to describe ________.

a. social adjustment

b. student load payment options

c. emotional learning

d. insight learning

7. ________ is a type of mental set where you cannot perceive an object being used for something other than what it was designed for.

a. functional fixedness

c. working memory

Critical Thinking Questions:

1. What is functional fixedness and how can overcoming it help you solve problems?

2. How does an algorithm save you time and energy when solving a problem?

Personal Application Question:

1. Which type of bias do you recognize in your own decision making processes? How has this bias affected how you’ve made decisions in the past and how can you use your awareness of it to improve your decisions making skills in the future?

anchoring bias

availability heuristic

confirmation bias

functional fixedness

hindsight bias

problem-solving strategy

representative bias

trial and error

working backwards

Answers to Exercises

algorithm: problem-solving strategy characterized by a specific set of instructions

anchoring bias: faulty heuristic in which you fixate on a single aspect of a problem to find a solution

availability heuristic: faulty heuristic in which you make a decision based on information readily available to you

confirmation bias: faulty heuristic in which you focus on information that confirms your beliefs

functional fixedness: inability to see an object as useful for any other use other than the one for which it was intended

heuristic: mental shortcut that saves time when solving a problem

hindsight bias: belief that the event just experienced was predictable, even though it really wasn’t

mental set: continually using an old solution to a problem without results

problem-solving strategy: method for solving problems

representative bias: faulty heuristic in which you stereotype someone or something without a valid basis for your judgment

trial and error: problem-solving strategy in which multiple solutions are attempted until the correct one is found

working backwards: heuristic in which you begin to solve a problem by focusing on the end result

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Problem-Solving Strategies and Obstacles

Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

Sean is a fact-checker and researcher with experience in sociology, field research, and data analytics.

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From deciding what to eat for dinner to considering whether it's the right time to buy a house, problem-solving is a large part of our daily lives. Learn some of the problem-solving strategies that exist and how to use them in real life, along with ways to overcome obstacles that are making it harder to resolve the issues you face.

What Is Problem-Solving?

In cognitive psychology , the term 'problem-solving' refers to the mental process that people go through to discover, analyze, and solve problems.

A problem exists when there is a goal that we want to achieve but the process by which we will achieve it is not obvious to us. Put another way, there is something that we want to occur in our life, yet we are not immediately certain how to make it happen.

Maybe you want a better relationship with your spouse or another family member but you're not sure how to improve it. Or you want to start a business but are unsure what steps to take. Problem-solving helps you figure out how to achieve these desires.

The problem-solving process involves:

Discovery of the problem
Deciding to tackle the issue
Seeking to understand the problem more fully
Researching available options or solutions
Taking action to resolve the issue

Before problem-solving can occur, it is important to first understand the exact nature of the problem itself. If your understanding of the issue is faulty, your attempts to resolve it will also be incorrect or flawed.

Problem-Solving Mental Processes

Several mental processes are at work during problem-solving. Among them are:

Perceptually recognizing the problem
Representing the problem in memory
Considering relevant information that applies to the problem
Identifying different aspects of the problem
Labeling and describing the problem

Problem-Solving Strategies

There are many ways to go about solving a problem. Some of these strategies might be used on their own, or you may decide to employ multiple approaches when working to figure out and fix a problem.

An algorithm is a step-by-step procedure that, by following certain "rules" produces a solution. Algorithms are commonly used in mathematics to solve division or multiplication problems. But they can be used in other fields as well.

In psychology, algorithms can be used to help identify individuals with a greater risk of mental health issues. For instance, research suggests that certain algorithms might help us recognize children with an elevated risk of suicide or self-harm.

One benefit of algorithms is that they guarantee an accurate answer. However, they aren't always the best approach to problem-solving, in part because detecting patterns can be incredibly time-consuming.

There are also concerns when machine learning is involved—also known as artificial intelligence (AI)—such as whether they can accurately predict human behaviors.

Heuristics are shortcut strategies that people can use to solve a problem at hand. These "rule of thumb" approaches allow you to simplify complex problems, reducing the total number of possible solutions to a more manageable set.

If you find yourself sitting in a traffic jam, for example, you may quickly consider other routes, taking one to get moving once again. When shopping for a new car, you might think back to a prior experience when negotiating got you a lower price, then employ the same tactics.

While heuristics may be helpful when facing smaller issues, major decisions shouldn't necessarily be made using a shortcut approach. Heuristics also don't guarantee an effective solution, such as when trying to drive around a traffic jam only to find yourself on an equally crowded route.

Trial and Error

A trial-and-error approach to problem-solving involves trying a number of potential solutions to a particular issue, then ruling out those that do not work. If you're not sure whether to buy a shirt in blue or green, for instance, you may try on each before deciding which one to purchase.

This can be a good strategy to use if you have a limited number of solutions available. But if there are many different choices available, narrowing down the possible options using another problem-solving technique can be helpful before attempting trial and error.

In some cases, the solution to a problem can appear as a sudden insight. You are facing an issue in a relationship or your career when, out of nowhere, the solution appears in your mind and you know exactly what to do.

Insight can occur when the problem in front of you is similar to an issue that you've dealt with in the past. Although, you may not recognize what is occurring since the underlying mental processes that lead to insight often happen outside of conscious awareness .

Research indicates that insight is most likely to occur during times when you are alone—such as when going on a walk by yourself, when you're in the shower, or when lying in bed after waking up.

How to Apply Problem-Solving Strategies in Real Life

If you're facing a problem, you can implement one or more of these strategies to find a potential solution. Here's how to use them in real life:

Create a flow chart . If you have time, you can take advantage of the algorithm approach to problem-solving by sitting down and making a flow chart of each potential solution, its consequences, and what happens next.
Recall your past experiences . When a problem needs to be solved fairly quickly, heuristics may be a better approach. Think back to when you faced a similar issue, then use your knowledge and experience to choose the best option possible.
Start trying potential solutions . If your options are limited, start trying them one by one to see which solution is best for achieving your desired goal. If a particular solution doesn't work, move on to the next.
Take some time alone . Since insight is often achieved when you're alone, carve out time to be by yourself for a while. The answer to your problem may come to you, seemingly out of the blue, if you spend some time away from others.

Obstacles to Problem-Solving

Problem-solving is not a flawless process as there are a number of obstacles that can interfere with our ability to solve a problem quickly and efficiently. These obstacles include:

Assumptions: When dealing with a problem, people can make assumptions about the constraints and obstacles that prevent certain solutions. Thus, they may not even try some potential options.
Functional fixedness : This term refers to the tendency to view problems only in their customary manner. Functional fixedness prevents people from fully seeing all of the different options that might be available to find a solution.
Irrelevant or misleading information: When trying to solve a problem, it's important to distinguish between information that is relevant to the issue and irrelevant data that can lead to faulty solutions. The more complex the problem, the easier it is to focus on misleading or irrelevant information.
Mental set: A mental set is a tendency to only use solutions that have worked in the past rather than looking for alternative ideas. A mental set can work as a heuristic, making it a useful problem-solving tool. However, mental sets can also lead to inflexibility, making it more difficult to find effective solutions.

How to Improve Your Problem-Solving Skills

In the end, if your goal is to become a better problem-solver, it's helpful to remember that this is a process. Thus, if you want to improve your problem-solving skills, following these steps can help lead you to your solution:

Recognize that a problem exists . If you are facing a problem, there are generally signs. For instance, if you have a mental illness , you may experience excessive fear or sadness, mood changes, and changes in sleeping or eating habits. Recognizing these signs can help you realize that an issue exists.
Decide to solve the problem . Make a conscious decision to solve the issue at hand. Commit to yourself that you will go through the steps necessary to find a solution.
Seek to fully understand the issue . Analyze the problem you face, looking at it from all sides. If your problem is relationship-related, for instance, ask yourself how the other person may be interpreting the issue. You might also consider how your actions might be contributing to the situation.
Research potential options . Using the problem-solving strategies mentioned, research potential solutions. Make a list of options, then consider each one individually. What are some pros and cons of taking the available routes? What would you need to do to make them happen?
Take action . Select the best solution possible and take action. Action is one of the steps required for change . So, go through the motions needed to resolve the issue.
Try another option, if needed . If the solution you chose didn't work, don't give up. Either go through the problem-solving process again or simply try another option.

You can find a way to solve your problems as long as you keep working toward this goal—even if the best solution is simply to let go because no other good solution exists.

Sarathy V. Real world problem-solving . Front Hum Neurosci . 2018;12:261. doi:10.3389/fnhum.2018.00261

Dunbar K. Problem solving . A Companion to Cognitive Science . 2017. doi:10.1002/9781405164535.ch20

Stewart SL, Celebre A, Hirdes JP, Poss JW. Risk of suicide and self-harm in kids: The development of an algorithm to identify high-risk individuals within the children's mental health system . Child Psychiat Human Develop . 2020;51:913-924. doi:10.1007/s10578-020-00968-9

Rosenbusch H, Soldner F, Evans AM, Zeelenberg M. Supervised machine learning methods in psychology: A practical introduction with annotated R code . Soc Personal Psychol Compass . 2021;15(2):e12579. doi:10.1111/spc3.12579

Mishra S. Decision-making under risk: Integrating perspectives from biology, economics, and psychology . Personal Soc Psychol Rev . 2014;18(3):280-307. doi:10.1177/1088868314530517

Csikszentmihalyi M, Sawyer K. Creative insight: The social dimension of a solitary moment . In: The Systems Model of Creativity . 2015:73-98. doi:10.1007/978-94-017-9085-7_7

Chrysikou EG, Motyka K, Nigro C, Yang SI, Thompson-Schill SL. Functional fixedness in creative thinking tasks depends on stimulus modality . Psychol Aesthet Creat Arts . 2016;10(4):425‐435. doi:10.1037/aca0000050

Huang F, Tang S, Hu Z. Unconditional perseveration of the short-term mental set in chunk decomposition . Front Psychol . 2018;9:2568. doi:10.3389/fpsyg.2018.02568

National Alliance on Mental Illness. Warning signs and symptoms .

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By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

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What is Problem Solving? A Complete Guide

Explore the essence of What is Problem Solving as we dissect this fundamental concept. From defining the very nature of problem-solving to understanding the intricate process it entails, this blog covers it all. Uncover the key skills essential for effective problem-solving and strategies to enhance your abilities in this critical skill.

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According to Statista , more than 50 per cent of IT Managers preferred candidates with effective Problem Solving skills. In this blog, you will learn what is Problem Solving, its process, key skills and strategies, along with tools and techniques to do so.

Table of contents

1) What is Problem Solving definition?

2) The process of Problem Solving

3) Key skills for effective Problem Solving

4) Strategies for enhancing Problem Solving abilities

5) Problem Solving tools and techniques

6) Conclusion

What is Problem Solving definition?

The process of Problem Solving

Understanding the problem

The first step in Problem Solving is gaining a clear understanding of the issue at hand. Take the time to thoroughly analyse the problem and gather relevant information. Ask yourself questions like:

1) What is the nature of the problem?

2) What are the factors contributing to the problem?

3) What are the desired outcomes?

4) Are there any constraints or limitations to consider?

By gaining a comprehensive understanding of the problem, you lay a solid foundation for finding an effective solution.

Generating possible solutions

Once you have a clear grasp of the problem, it's time to brainstorm potential solutions. Encourage creativity and think outside the box. Consider all possible options without judgment or criticism. The goal at this stage is to generate a variety of ideas and alternatives.

Evaluating and selecting the best solution

After generating a list of possible solutions, it's important to evaluate each option based on its feasibility, effectiveness, and alignment with the desired outcome. Consider the advantages and disadvantages of each and every solution. Assess its practicality and the resources required for implementation.

Additionally, take into account the potential risks and benefits associated with each solution. Consider any potential consequences or impacts on other aspects. Based on this evaluation, select the solution that appears most viable and promising.

Implementing the solution

Once you have chosen the best solution, it's time to put it into action. Develop a detailed plan outlining the necessary steps and allocate the required resources. Determine responsibilities and deadlines to ensure a smooth implementation process.

During implementation, monitor progress and make any necessary adjustments or adaptations. Stay proactive and address any challenges or obstacles that may arise along the way. Effective communication and collaboration with others involved in the process can greatly contribute to successful implementation.

Assessing the results

After implementing the solution, it's essential to assess the results. Evaluate whether the problem has been properly resolved or if further adjustments are required. Analyse the outcomes and compare them against the desired goals and expectations.

Consider whether the chosen solution has brought about the intended benefits and if any unexpected consequences have emerged. Reflect on the overall effectiveness of the Problem Solving process and identify any lessons learned for future reference.

Remember, Problem Solving is an iterative process, and it's not uncommon to revisit and refine solutions based on ongoing evaluation and feedback. Embrace a continuous improvement mindset and be open to seeking alternative approaches if necessary.

By following this Problem Solving process, you can approach challenges systematically and increase your chances of finding effective solutions. Remember that practice and experience play a vital role in honing your skills.

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Key skills for effective Problem Solving

In order to become an effective problem solver, it is crucial to develop a set of key skills that enhance your Problem Solving abilities. These skills enable you to approach challenges with a strategic mindset and find innovative solutions. Let's look at some of these skills:

Critical thinking

Critical thinking involves analysing information objectively, considering different perspectives, and making logical judgments. It helps in evaluating problems accurately and identifying appropriate solutions.

Creativity

Creativity enables the generation of innovative and unconventional solutions. It involves thinking outside the box, exploring new possibilities, and approaching problems from different angles.

Analytical skills

Analytical skills are crucial for breaking down complex problems into smaller, more manageable parts. This ability aids in identifying patterns, relationships, and underlying causes.

Decision-making

Sound decision-making skills involve evaluating the pros and cons of each solution and selecting the best course of action. It requires considering the potential risks and benefits of different options.

By honing these key skills, individuals can become more effective Problem Solvers and tackle challenges with confidence.

Strategies for enhancing Problem Solving abilities

Practice critical thinking

Engage in activities that promote critical thinking, such as solving puzzles, engaging in thought-provoking discussions, and challenging assumptions. This helps sharpen your analytical skills and enhances your ability to think critically when faced with problems.

Seek feedback and learn from experience

Seek feedback from mentors, peers, or experts when solving problems. Reflect on past experiences to identify areas for improvement and learn from your successes and failures. Embrace every Problem Solving opportunity as a chance to grow and develop your skills.

Embrace challenges

Instead of avoiding challenges, embrace them as opportunities for growth. Approach difficult problems with a positive mindset, viewing them as chances to develop new strategies and expand your expertise in dealing with problems. Embracing challenges fosters resilience and strengthens your Problem Solving abilities.

Collaborate with others

Collaboration can enhance Problem Solving outcomes by bringing diverse perspectives and ideas to the table. Engage in group activities to discuss issues, seek input from others, and actively listen to different viewpoints. Collaborating with others broadens your knowledge of dealing with problems and promotes innovative thinking.

Continuously learn and update knowledge

Stay updated with the latest information and developments in areas relevant to your tasks. Read books, attend workshops or seminars, and leverage online resources to expand your knowledge base. Continuously learning equips you with a wider range of Problem Solving strategies and enhances your abilities.

Think outside the box

Encourage creative thinking by exploring unconventional ideas and solutions. Challenge assumptions and consider alternative approaches. This mindset shift can lead to innovative Problem Solving strategies and help you discover unique solutions to complex problems.

Implementing these strategies can significantly enhance your Problem Solving abilities. Remember, practice, feedback, collaboration, continuous learning, and creativity are key to becoming a proficient problem solver.

Problem Solving tools and techniques

When faced with complex problems, utilising specific tools and techniques can help facilitate the solving process and lead to more effective solutions. Here are some commonly used Problem Solving tools and techniques:

Root cause analysis

Root cause analysis is a methodology used to detect the underlying causes of a problem. It involves investigating the problem's symptoms and tracing them back to their fundamental causes. By addressing the root causes, Problem Solvers can prevent the issue from recurring.

Strengths, Weaknesses, Opportunities, Threats (SWOT) analysis

SWOT analysis is a planning tool that strategically helps measure the weaknesses and internal strengths of a situation. Moreover, it can find external opportunities and threats. By assessing these factors, Problem Solvers can gain insights into the current state and make informed decisions about potential solutions.

Fishbone diagrams

Fishbone diagrams, also known as cause-and-effect diagrams or Ishikawa diagrams, visually represent the possible causes contributing to a problem. By organising causes into categories (such as people, process, equipment, and environment), Problem Solvers can systematically analyse the problem's potential sources.

Decision matrices

Decision matrices are used to evaluate and compare different options based on multiple criteria. This tool helps Problem Solvers weigh the importance of various factors and objectively assess each alternative, leading to an informed decision.

Six Thinking Hats

Six Thinking Hats is a technique initially developed by Edward de Bono that encourages parallel thinking by exploring different perspectives. Each "hat" represents a different thinking approach (e.g., logical, creative, emotional), allowing Problem Solvers to consider diverse viewpoints and generate innovative solutions.

These are just a few examples of Problem Solving tools and techniques. Depending on the nature of the problem, other methods, such as brainstorming, mind mapping, flowcharts, or Pareto analysis, can also be applied. Choosing the appropriate tool or technique depends on the specific problem and the desired outcome.

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Conclusion

We hope you read and understand everything about What is Problem Solving. Developing effective skills is crucial for overcoming challenges, making informed decisions, and achieving success. By embracing problems as opportunities and applying strategic approaches, individuals can become proficient Problem Solvers in various domains of life.

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The Art of Effective Problem Solving: A Step-by-Step Guide
Learn Lean Sigma
Problem Solving

Whether we realise it or not, problem solving skills are an important part of our daily lives. From resolving a minor annoyance at home to tackling complex business challenges at work, our ability to solve problems has a significant impact on our success and happiness. However, not everyone is naturally gifted at problem-solving, and even those who are can always improve their skills. In this blog post, we will go over the art of effective problem-solving step by step.

You will learn how to define a problem, gather information, assess alternatives, and implement a solution, all while honing your critical thinking and creative problem-solving skills. Whether you’re a seasoned problem solver or just getting started, this guide will arm you with the knowledge and tools you need to face any challenge with confidence. So let’s get started!

Problem solving methodologies.

Individuals and organisations can use a variety of problem-solving methodologies to address complex challenges. 8D and A3 problem solving techniques are two popular methodologies in the Lean Six Sigma framework.

Methodology of 8D (Eight Discipline) Problem Solving:

The 8D problem solving methodology is a systematic, team-based approach to problem solving. It is a method that guides a team through eight distinct steps to solve a problem in a systematic and comprehensive manner.

The 8D process consists of the following steps:

Form a team: Assemble a group of people who have the necessary expertise to work on the problem.
Define the issue: Clearly identify and define the problem, including the root cause and the customer impact.
Create a temporary containment plan: Put in place a plan to lessen the impact of the problem until a permanent solution can be found.
Identify the root cause: To identify the underlying causes of the problem, use root cause analysis techniques such as Fishbone diagrams and Pareto charts.
Create and test long-term corrective actions: Create and test a long-term solution to eliminate the root cause of the problem.
Implement and validate the permanent solution: Implement and validate the permanent solution’s effectiveness.
Prevent recurrence: Put in place measures to keep the problem from recurring.
Recognize and reward the team: Recognize and reward the team for its efforts.

Download the 8D Problem Solving Template

A3 Problem Solving Method:

The A3 problem solving technique is a visual, team-based problem-solving approach that is frequently used in Lean Six Sigma projects. The A3 report is a one-page document that clearly and concisely outlines the problem, root cause analysis, and proposed solution.

The A3 problem-solving procedure consists of the following steps:

Determine the issue: Define the issue clearly, including its impact on the customer.
Perform root cause analysis: Identify the underlying causes of the problem using root cause analysis techniques.
Create and implement a solution: Create and implement a solution that addresses the problem’s root cause.
Monitor and improve the solution: Keep an eye on the solution’s effectiveness and make any necessary changes.

Subsequently, in the Lean Six Sigma framework, the 8D and A3 problem solving methodologies are two popular approaches to problem solving. Both methodologies provide a structured, team-based problem-solving approach that guides individuals through a comprehensive and systematic process of identifying, analysing, and resolving problems in an effective and efficient manner.

Step 1 – Define the Problem

The definition of the problem is the first step in effective problem solving. This may appear to be a simple task, but it is actually quite difficult. This is because problems are frequently complex and multi-layered, making it easy to confuse symptoms with the underlying cause. To avoid this pitfall, it is critical to thoroughly understand the problem.

To begin, ask yourself some clarifying questions:

What exactly is the issue?
What are the problem’s symptoms or consequences?
Who or what is impacted by the issue?
When and where does the issue arise?

Answering these questions will assist you in determining the scope of the problem. However, simply describing the problem is not always sufficient; you must also identify the root cause. The root cause is the underlying cause of the problem and is usually the key to resolving it permanently.

Try asking “why” questions to find the root cause:

What causes the problem?
Why does it continue?
Why does it have the effects that it does?

By repeatedly asking “ why ,” you’ll eventually get to the bottom of the problem. This is an important step in the problem-solving process because it ensures that you’re dealing with the root cause rather than just the symptoms.

Once you have a firm grasp on the issue, it is time to divide it into smaller, more manageable chunks. This makes tackling the problem easier and reduces the risk of becoming overwhelmed. For example, if you’re attempting to solve a complex business problem, you might divide it into smaller components like market research, product development, and sales strategies.

To summarise step 1, defining the problem is an important first step in effective problem-solving. You will be able to identify the root cause and break it down into manageable parts if you take the time to thoroughly understand the problem. This will prepare you for the next step in the problem-solving process, which is gathering information and brainstorming ideas.

Step 2 – Gather Information and Brainstorm Ideas

Gathering information and brainstorming ideas is the next step in effective problem solving. This entails researching the problem and relevant information, collaborating with others, and coming up with a variety of potential solutions. This increases your chances of finding the best solution to the problem.

Begin by researching the problem and relevant information. This could include reading articles, conducting surveys, or consulting with experts. The goal is to collect as much information as possible in order to better understand the problem and possible solutions.

Next, work with others to gather a variety of perspectives. Brainstorming with others can be an excellent way to come up with new and creative ideas. Encourage everyone to share their thoughts and ideas when working in a group, and make an effort to actively listen to what others have to say. Be open to new and unconventional ideas and resist the urge to dismiss them too quickly.

Finally, use brainstorming to generate a wide range of potential solutions. This is the place where you can let your imagination run wild. At this stage, don’t worry about the feasibility or practicality of the solutions; instead, focus on generating as many ideas as possible. Write down everything that comes to mind, no matter how ridiculous or unusual it may appear. This can be done individually or in groups.

Once you’ve compiled a list of potential solutions, it’s time to assess them and select the best one. This is the next step in the problem-solving process, which we’ll go over in greater detail in the following section.

Step 3 – Evaluate Options and Choose the Best Solution

Once you’ve compiled a list of potential solutions, it’s time to assess them and select the best one. This is the third step in effective problem solving, and it entails weighing the advantages and disadvantages of each solution, considering their feasibility and practicability, and selecting the solution that is most likely to solve the problem effectively.

To begin, weigh the advantages and disadvantages of each solution. This will assist you in determining the potential outcomes of each solution and deciding which is the best option. For example, a quick and easy solution may not be the most effective in the long run, whereas a more complex and time-consuming solution may be more effective in solving the problem in the long run.

Consider each solution’s feasibility and practicability. Consider the following:

Can the solution be implemented within the available resources, time, and budget?
What are the possible barriers to implementing the solution?
Is the solution feasible in today’s political, economic, and social environment?

You’ll be able to tell which solutions are likely to succeed and which aren’t by assessing their feasibility and practicability.

Finally, choose the solution that is most likely to effectively solve the problem. This solution should be based on the criteria you’ve established, such as the advantages and disadvantages of each solution, their feasibility and practicability, and your overall goals.

It is critical to remember that there is no one-size-fits-all solution to problems. What is effective for one person or situation may not be effective for another. This is why it is critical to consider a wide range of solutions and evaluate each one based on its ability to effectively solve the problem.

Step 4 – Implement and Monitor the Solution

When you’ve decided on the best solution, it’s time to put it into action. The fourth and final step in effective problem solving is to put the solution into action, monitor its progress, and make any necessary adjustments.

To begin, implement the solution. This may entail delegating tasks, developing a strategy, and allocating resources. Ascertain that everyone involved understands their role and responsibilities in the solution’s implementation.

Next, keep an eye on the solution’s progress. This may entail scheduling regular check-ins, tracking metrics, and soliciting feedback from others. You will be able to identify any potential roadblocks and make any necessary adjustments in a timely manner if you monitor the progress of the solution.

Finally, make any necessary modifications to the solution. This could entail changing the solution, altering the plan of action, or delegating different tasks. Be willing to make changes if they will improve the solution or help it solve the problem more effectively.

It’s important to remember that problem solving is an iterative process, and there may be times when you need to start from scratch. This is especially true if the initial solution does not effectively solve the problem. In these situations, it’s critical to be adaptable and flexible and to keep trying new solutions until you find the one that works best.

To summarise, effective problem solving is a critical skill that can assist individuals and organisations in overcoming challenges and achieving their objectives. Effective problem solving consists of four key steps: defining the problem, generating potential solutions, evaluating alternatives and selecting the best solution, and implementing the solution.

You can increase your chances of success in problem solving by following these steps and considering factors such as the pros and cons of each solution, their feasibility and practicability, and making any necessary adjustments. Furthermore, keep in mind that problem solving is an iterative process, and there may be times when you need to go back to the beginning and restart. Maintain your adaptability and try new solutions until you find the one that works best for you.

Novick, L.R. and Bassok, M., 2005. Problem Solving . Cambridge University Press.

Daniel Croft

Daniel Croft is a seasoned continuous improvement manager with a Black Belt in Lean Six Sigma. With over 10 years of real-world application experience across diverse sectors, Daniel has a passion for optimizing processes and fostering a culture of efficiency. He's not just a practitioner but also an avid learner, constantly seeking to expand his knowledge. Outside of his professional life, Daniel has a keen Investing, statistics and knowledge-sharing, which led him to create the website learnleansigma.com, a platform dedicated to Lean Six Sigma and process improvement insights.

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35 problem-solving techniques and methods for solving complex problems

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How do you identify problems?

How do you identify the right solution.

Tips for more effective problem-solving

Complete problem-solving methods

Problem-solving techniques to identify and analyze problems
Problem-solving techniques for developing solutions

Problem-solving warm-up activities

Closing activities for a problem-solving process.

Before you can move towards finding the right solution for a given problem, you first need to identify and define the problem you wish to solve.

Here, you want to clearly articulate what the problem is and allow your group to do the same. Remember that everyone in a group is likely to have differing perspectives and alignment is necessary in order to help the group move forward.

Identifying a problem accurately also requires that all members of a group are able to contribute their views in an open and safe manner. It can be scary for people to stand up and contribute, especially if the problems or challenges are emotive or personal in nature. Be sure to try and create a psychologically safe space for these kinds of discussions.

Remember that problem analysis and further discussion are also important. Not taking the time to fully analyze and discuss a challenge can result in the development of solutions that are not fit for purpose or do not address the underlying issue.

Successfully identifying and then analyzing a problem means facilitating a group through activities designed to help them clearly and honestly articulate their thoughts and produce usable insight.

With this data, you might then produce a problem statement that clearly describes the problem you wish to be addressed and also state the goal of any process you undertake to tackle this issue.

Finding solutions is the end goal of any process. Complex organizational challenges can only be solved with an appropriate solution but discovering them requires using the right problem-solving tool.

After you’ve explored a problem and discussed ideas, you need to help a team discuss and choose the right solution. Consensus tools and methods such as those below help a group explore possible solutions before then voting for the best. They’re a great way to tap into the collective intelligence of the group for great results!

Remember that the process is often iterative. Great problem solvers often roadtest a viable solution in a measured way to see what works too. While you might not get the right solution on your first try, the methods below help teams land on the most likely to succeed solution while also holding space for improvement.

Every effective problem solving process begins with an agenda . A well-structured workshop is one of the best methods for successfully guiding a group from exploring a problem to implementing a solution.

In SessionLab, it’s easy to go from an idea to a complete agenda . Start by dragging and dropping your core problem solving activities into place . Add timings, breaks and necessary materials before sharing your agenda with your colleagues.

The resulting agenda will be your guide to an effective and productive problem solving session that will also help you stay organized on the day!

Tips for more effective problem solving

Problem-solving activities are only one part of the puzzle. While a great method can help unlock your team’s ability to solve problems, without a thoughtful approach and strong facilitation the solutions may not be fit for purpose.

Let’s take a look at some problem-solving tips you can apply to any process to help it be a success!

Clearly define the problem

Jumping straight to solutions can be tempting, though without first clearly articulating a problem, the solution might not be the right one. Many of the problem-solving activities below include sections where the problem is explored and clearly defined before moving on.

This is a vital part of the problem-solving process and taking the time to fully define an issue can save time and effort later. A clear definition helps identify irrelevant information and it also ensures that your team sets off on the right track.

Don’t jump to conclusions

It’s easy for groups to exhibit cognitive bias or have preconceived ideas about both problems and potential solutions. Be sure to back up any problem statements or potential solutions with facts, research, and adequate forethought.

The best techniques ask participants to be methodical and challenge preconceived notions. Make sure you give the group enough time and space to collect relevant information and consider the problem in a new way. By approaching the process with a clear, rational mindset, you’ll often find that better solutions are more forthcoming.

Try different approaches

Problems come in all shapes and sizes and so too should the methods you use to solve them. If you find that one approach isn’t yielding results and your team isn’t finding different solutions, try mixing it up. You’ll be surprised at how using a new creative activity can unblock your team and generate great solutions.

Don’t take it personally

Depending on the nature of your team or organizational problems, it’s easy for conversations to get heated. While it’s good for participants to be engaged in the discussions, ensure that emotions don’t run too high and that blame isn’t thrown around while finding solutions.

You’re all in it together, and even if your team or area is seeing problems, that isn’t necessarily a disparagement of you personally. Using facilitation skills to manage group dynamics is one effective method of helping conversations be more constructive.

Get the right people in the room

Your problem-solving method is often only as effective as the group using it. Getting the right people on the job and managing the number of people present is important too!

If the group is too small, you may not get enough different perspectives to effectively solve a problem. If the group is too large, you can go round and round during the ideation stages.

Creating the right group makeup is also important in ensuring you have the necessary expertise and skillset to both identify and follow up on potential solutions. Carefully consider who to include at each stage to help ensure your problem-solving method is followed and positioned for success.

Document everything

The best solutions can take refinement, iteration, and reflection to come out. Get into a habit of documenting your process in order to keep all the learnings from the session and to allow ideas to mature and develop. Many of the methods below involve the creation of documents or shared resources. Be sure to keep and share these so everyone can benefit from the work done!

Bring a facilitator

Facilitation is all about making group processes easier. With a subject as potentially emotive and important as problem-solving, having an impartial third party in the form of a facilitator can make all the difference in finding great solutions and keeping the process moving. Consider bringing a facilitator to your problem-solving session to get better results and generate meaningful solutions!

Develop your problem-solving skills

It takes time and practice to be an effective problem solver. While some roles or participants might more naturally gravitate towards problem-solving, it can take development and planning to help everyone create better solutions.

You might develop a training program, run a problem-solving workshop or simply ask your team to practice using the techniques below. Check out our post on problem-solving skills to see how you and your group can develop the right mental process and be more resilient to issues too!

Design a great agenda

Workshops are a great format for solving problems. With the right approach, you can focus a group and help them find the solutions to their own problems. But designing a process can be time-consuming and finding the right activities can be difficult.

Check out our workshop planning guide to level-up your agenda design and start running more effective workshops. Need inspiration? Check out templates designed by expert facilitators to help you kickstart your process!

In this section, we’ll look at in-depth problem-solving methods that provide a complete end-to-end process for developing effective solutions. These will help guide your team from the discovery and definition of a problem through to delivering the right solution.

If you’re looking for an all-encompassing method or problem-solving model, these processes are a great place to start. They’ll ask your team to challenge preconceived ideas and adopt a mindset for solving problems more effectively.

Six Thinking Hats
Lightning Decision Jam
Problem Definition Process
Discovery & Action Dialogue

Design Sprint 2.0

Open Space Technology

1. Six Thinking Hats

Individual approaches to solving a problem can be very different based on what team or role an individual holds. It can be easy for existing biases or perspectives to find their way into the mix, or for internal politics to direct a conversation.

Six Thinking Hats is a classic method for identifying the problems that need to be solved and enables your team to consider them from different angles, whether that is by focusing on facts and data, creative solutions, or by considering why a particular solution might not work.

Like all problem-solving frameworks, Six Thinking Hats is effective at helping teams remove roadblocks from a conversation or discussion and come to terms with all the aspects necessary to solve complex problems.

2. Lightning Decision Jam

Featured courtesy of Jonathan Courtney of AJ&Smart Berlin, Lightning Decision Jam is one of those strategies that should be in every facilitation toolbox. Exploring problems and finding solutions is often creative in nature, though as with any creative process, there is the potential to lose focus and get lost.

Unstructured discussions might get you there in the end, but it’s much more effective to use a method that creates a clear process and team focus.

In Lightning Decision Jam, participants are invited to begin by writing challenges, concerns, or mistakes on post-its without discussing them before then being invited by the moderator to present them to the group.

From there, the team vote on which problems to solve and are guided through steps that will allow them to reframe those problems, create solutions and then decide what to execute on.

By deciding the problems that need to be solved as a team before moving on, this group process is great for ensuring the whole team is aligned and can take ownership over the next stages.

Lightning Decision Jam (LDJ) #action #decision making #problem solving #issue analysis #innovation #design #remote-friendly The problem with anything that requires creative thinking is that it’s easy to get lost—lose focus and fall into the trap of having useless, open-ended, unstructured discussions. Here’s the most effective solution I’ve found: Replace all open, unstructured discussion with a clear process. What to use this exercise for: Anything which requires a group of people to make decisions, solve problems or discuss challenges. It’s always good to frame an LDJ session with a broad topic, here are some examples: The conversion flow of our checkout Our internal design process How we organise events Keeping up with our competition Improving sales flow

3. Problem Definition Process

While problems can be complex, the problem-solving methods you use to identify and solve those problems can often be simple in design.

By taking the time to truly identify and define a problem before asking the group to reframe the challenge as an opportunity, this method is a great way to enable change.

Begin by identifying a focus question and exploring the ways in which it manifests before splitting into five teams who will each consider the problem using a different method: escape, reversal, exaggeration, distortion or wishful. Teams develop a problem objective and create ideas in line with their method before then feeding them back to the group.

This method is great for enabling in-depth discussions while also creating space for finding creative solutions too!

Problem Definition #problem solving #idea generation #creativity #online #remote-friendly A problem solving technique to define a problem, challenge or opportunity and to generate ideas.

4. The 5 Whys

Sometimes, a group needs to go further with their strategies and analyze the root cause at the heart of organizational issues. An RCA or root cause analysis is the process of identifying what is at the heart of business problems or recurring challenges.

The 5 Whys is a simple and effective method of helping a group go find the root cause of any problem or challenge and conduct analysis that will deliver results.

By beginning with the creation of a problem statement and going through five stages to refine it, The 5 Whys provides everything you need to truly discover the cause of an issue.

The 5 Whys #hyperisland #innovation This simple and powerful method is useful for getting to the core of a problem or challenge. As the title suggests, the group defines a problems, then asks the question “why” five times, often using the resulting explanation as a starting point for creative problem solving.

5. World Cafe

World Cafe is a simple but powerful facilitation technique to help bigger groups to focus their energy and attention on solving complex problems.

World Cafe enables this approach by creating a relaxed atmosphere where participants are able to self-organize and explore topics relevant and important to them which are themed around a central problem-solving purpose. Create the right atmosphere by modeling your space after a cafe and after guiding the group through the method, let them take the lead!

Making problem-solving a part of your organization’s culture in the long term can be a difficult undertaking. More approachable formats like World Cafe can be especially effective in bringing people unfamiliar with workshops into the fold.

World Cafe #hyperisland #innovation #issue analysis World Café is a simple yet powerful method, originated by Juanita Brown, for enabling meaningful conversations driven completely by participants and the topics that are relevant and important to them. Facilitators create a cafe-style space and provide simple guidelines. Participants then self-organize and explore a set of relevant topics or questions for conversation.

6. Discovery & Action Dialogue (DAD)

One of the best approaches is to create a safe space for a group to share and discover practices and behaviors that can help them find their own solutions.

With DAD, you can help a group choose which problems they wish to solve and which approaches they will take to do so. It’s great at helping remove resistance to change and can help get buy-in at every level too!

This process of enabling frontline ownership is great in ensuring follow-through and is one of the methods you will want in your toolbox as a facilitator.

Discovery & Action Dialogue (DAD) #idea generation #liberating structures #action #issue analysis #remote-friendly DADs make it easy for a group or community to discover practices and behaviors that enable some individuals (without access to special resources and facing the same constraints) to find better solutions than their peers to common problems. These are called positive deviant (PD) behaviors and practices. DADs make it possible for people in the group, unit, or community to discover by themselves these PD practices. DADs also create favorable conditions for stimulating participants’ creativity in spaces where they can feel safe to invent new and more effective practices. Resistance to change evaporates as participants are unleashed to choose freely which practices they will adopt or try and which problems they will tackle. DADs make it possible to achieve frontline ownership of solutions.

7. Design Sprint 2.0

Want to see how a team can solve big problems and move forward with prototyping and testing solutions in a few days? The Design Sprint 2.0 template from Jake Knapp, author of Sprint, is a complete agenda for a with proven results.

Developing the right agenda can involve difficult but necessary planning. Ensuring all the correct steps are followed can also be stressful or time-consuming depending on your level of experience.

Use this complete 4-day workshop template if you are finding there is no obvious solution to your challenge and want to focus your team around a specific problem that might require a shortcut to launching a minimum viable product or waiting for the organization-wide implementation of a solution.

8. Open space technology

Open space technology- developed by Harrison Owen – creates a space where large groups are invited to take ownership of their problem solving and lead individual sessions. Open space technology is a great format when you have a great deal of expertise and insight in the room and want to allow for different takes and approaches on a particular theme or problem you need to be solved.

Start by bringing your participants together to align around a central theme and focus their efforts. Explain the ground rules to help guide the problem-solving process and then invite members to identify any issue connecting to the central theme that they are interested in and are prepared to take responsibility for.

Once participants have decided on their approach to the core theme, they write their issue on a piece of paper, announce it to the group, pick a session time and place, and post the paper on the wall. As the wall fills up with sessions, the group is then invited to join the sessions that interest them the most and which they can contribute to, then you’re ready to begin!

Everyone joins the problem-solving group they’ve signed up to, record the discussion and if appropriate, findings can then be shared with the rest of the group afterward.

Open Space Technology #action plan #idea generation #problem solving #issue analysis #large group #online #remote-friendly Open Space is a methodology for large groups to create their agenda discerning important topics for discussion, suitable for conferences, community gatherings and whole system facilitation

Techniques to identify and analyze problems

Using a problem-solving method to help a team identify and analyze a problem can be a quick and effective addition to any workshop or meeting.

While further actions are always necessary, you can generate momentum and alignment easily, and these activities are a great place to get started.

We’ve put together this list of techniques to help you and your team with problem identification, analysis, and discussion that sets the foundation for developing effective solutions.

Let’s take a look!

The Creativity Dice
Fishbone Analysis
Problem Tree
SWOT Analysis
Agreement-Certainty Matrix
The Journalistic Six
LEGO Challenge
What, So What, Now What?
Journalists

Individual and group perspectives are incredibly important, but what happens if people are set in their minds and need a change of perspective in order to approach a problem more effectively?

Flip It is a method we love because it is both simple to understand and run, and allows groups to understand how their perspectives and biases are formed.

Participants in Flip It are first invited to consider concerns, issues, or problems from a perspective of fear and write them on a flip chart. Then, the group is asked to consider those same issues from a perspective of hope and flip their understanding.

No problem and solution is free from existing bias and by changing perspectives with Flip It, you can then develop a problem solving model quickly and effectively.

Flip It! #gamestorming #problem solving #action Often, a change in a problem or situation comes simply from a change in our perspectives. Flip It! is a quick game designed to show players that perspectives are made, not born.

10. The Creativity Dice

One of the most useful problem solving skills you can teach your team is of approaching challenges with creativity, flexibility, and openness. Games like The Creativity Dice allow teams to overcome the potential hurdle of too much linear thinking and approach the process with a sense of fun and speed.

In The Creativity Dice, participants are organized around a topic and roll a dice to determine what they will work on for a period of 3 minutes at a time. They might roll a 3 and work on investigating factual information on the chosen topic. They might roll a 1 and work on identifying the specific goals, standards, or criteria for the session.

Encouraging rapid work and iteration while asking participants to be flexible are great skills to cultivate. Having a stage for idea incubation in this game is also important. Moments of pause can help ensure the ideas that are put forward are the most suitable.

The Creativity Dice #creativity #problem solving #thiagi #issue analysis Too much linear thinking is hazardous to creative problem solving. To be creative, you should approach the problem (or the opportunity) from different points of view. You should leave a thought hanging in mid-air and move to another. This skipping around prevents premature closure and lets your brain incubate one line of thought while you consciously pursue another.

11. Fishbone Analysis

Organizational or team challenges are rarely simple, and it’s important to remember that one problem can be an indication of something that goes deeper and may require further consideration to be solved.

Fishbone Analysis helps groups to dig deeper and understand the origins of a problem. It’s a great example of a root cause analysis method that is simple for everyone on a team to get their head around.

Participants in this activity are asked to annotate a diagram of a fish, first adding the problem or issue to be worked on at the head of a fish before then brainstorming the root causes of the problem and adding them as bones on the fish.

Using abstractions such as a diagram of a fish can really help a team break out of their regular thinking and develop a creative approach.

Fishbone Analysis #problem solving ##root cause analysis #decision making #online facilitation A process to help identify and understand the origins of problems, issues or observations.

12. Problem Tree

Encouraging visual thinking can be an essential part of many strategies. By simply reframing and clarifying problems, a group can move towards developing a problem solving model that works for them.

In Problem Tree, groups are asked to first brainstorm a list of problems – these can be design problems, team problems or larger business problems – and then organize them into a hierarchy. The hierarchy could be from most important to least important or abstract to practical, though the key thing with problem solving games that involve this aspect is that your group has some way of managing and sorting all the issues that are raised.

Once you have a list of problems that need to be solved and have organized them accordingly, you’re then well-positioned for the next problem solving steps.

Problem tree #define intentions #create #design #issue analysis A problem tree is a tool to clarify the hierarchy of problems addressed by the team within a design project; it represents high level problems or related sublevel problems.

13. SWOT Analysis

Chances are you’ve heard of the SWOT Analysis before. This problem-solving method focuses on identifying strengths, weaknesses, opportunities, and threats is a tried and tested method for both individuals and teams.

Start by creating a desired end state or outcome and bare this in mind – any process solving model is made more effective by knowing what you are moving towards. Create a quadrant made up of the four categories of a SWOT analysis and ask participants to generate ideas based on each of those quadrants.

Once you have those ideas assembled in their quadrants, cluster them together based on their affinity with other ideas. These clusters are then used to facilitate group conversations and move things forward.

SWOT analysis #gamestorming #problem solving #action #meeting facilitation The SWOT Analysis is a long-standing technique of looking at what we have, with respect to the desired end state, as well as what we could improve on. It gives us an opportunity to gauge approaching opportunities and dangers, and assess the seriousness of the conditions that affect our future. When we understand those conditions, we can influence what comes next.

14. Agreement-Certainty Matrix

Not every problem-solving approach is right for every challenge, and deciding on the right method for the challenge at hand is a key part of being an effective team.

The Agreement Certainty matrix helps teams align on the nature of the challenges facing them. By sorting problems from simple to chaotic, your team can understand what methods are suitable for each problem and what they can do to ensure effective results.

If you are already using Liberating Structures techniques as part of your problem-solving strategy, the Agreement-Certainty Matrix can be an invaluable addition to your process. We’ve found it particularly if you are having issues with recurring problems in your organization and want to go deeper in understanding the root cause.

Agreement-Certainty Matrix #issue analysis #liberating structures #problem solving You can help individuals or groups avoid the frequent mistake of trying to solve a problem with methods that are not adapted to the nature of their challenge. The combination of two questions makes it possible to easily sort challenges into four categories: simple, complicated, complex , and chaotic . A problem is simple when it can be solved reliably with practices that are easy to duplicate. It is complicated when experts are required to devise a sophisticated solution that will yield the desired results predictably. A problem is complex when there are several valid ways to proceed but outcomes are not predictable in detail. Chaotic is when the context is too turbulent to identify a path forward. A loose analogy may be used to describe these differences: simple is like following a recipe, complicated like sending a rocket to the moon, complex like raising a child, and chaotic is like the game “Pin the Tail on the Donkey.” The Liberating Structures Matching Matrix in Chapter 5 can be used as the first step to clarify the nature of a challenge and avoid the mismatches between problems and solutions that are frequently at the root of chronic, recurring problems.

Organizing and charting a team’s progress can be important in ensuring its success. SQUID (Sequential Question and Insight Diagram) is a great model that allows a team to effectively switch between giving questions and answers and develop the skills they need to stay on track throughout the process.

Begin with two different colored sticky notes – one for questions and one for answers – and with your central topic (the head of the squid) on the board. Ask the group to first come up with a series of questions connected to their best guess of how to approach the topic. Ask the group to come up with answers to those questions, fix them to the board and connect them with a line. After some discussion, go back to question mode by responding to the generated answers or other points on the board.

It’s rewarding to see a diagram grow throughout the exercise, and a completed SQUID can provide a visual resource for future effort and as an example for other teams.

SQUID #gamestorming #project planning #issue analysis #problem solving When exploring an information space, it’s important for a group to know where they are at any given time. By using SQUID, a group charts out the territory as they go and can navigate accordingly. SQUID stands for Sequential Question and Insight Diagram.

16. Speed Boat

To continue with our nautical theme, Speed Boat is a short and sweet activity that can help a team quickly identify what employees, clients or service users might have a problem with and analyze what might be standing in the way of achieving a solution.

Methods that allow for a group to make observations, have insights and obtain those eureka moments quickly are invaluable when trying to solve complex problems.

In Speed Boat, the approach is to first consider what anchors and challenges might be holding an organization (or boat) back. Bonus points if you are able to identify any sharks in the water and develop ideas that can also deal with competitors!

Speed Boat #gamestorming #problem solving #action Speedboat is a short and sweet way to identify what your employees or clients don’t like about your product/service or what’s standing in the way of a desired goal.

17. The Journalistic Six

Some of the most effective ways of solving problems is by encouraging teams to be more inclusive and diverse in their thinking.

Based on the six key questions journalism students are taught to answer in articles and news stories, The Journalistic Six helps create teams to see the whole picture. By using who, what, when, where, why, and how to facilitate the conversation and encourage creative thinking, your team can make sure that the problem identification and problem analysis stages of the are covered exhaustively and thoughtfully. Reporter’s notebook and dictaphone optional.

The Journalistic Six – Who What When Where Why How #idea generation #issue analysis #problem solving #online #creative thinking #remote-friendly A questioning method for generating, explaining, investigating ideas.

18. LEGO Challenge

Now for an activity that is a little out of the (toy) box. LEGO Serious Play is a facilitation methodology that can be used to improve creative thinking and problem-solving skills.

The LEGO Challenge includes giving each member of the team an assignment that is hidden from the rest of the group while they create a structure without speaking.

What the LEGO challenge brings to the table is a fun working example of working with stakeholders who might not be on the same page to solve problems. Also, it’s LEGO! Who doesn’t love LEGO!

LEGO Challenge #hyperisland #team A team-building activity in which groups must work together to build a structure out of LEGO, but each individual has a secret “assignment” which makes the collaborative process more challenging. It emphasizes group communication, leadership dynamics, conflict, cooperation, patience and problem solving strategy.

19. What, So What, Now What?

If not carefully managed, the problem identification and problem analysis stages of the problem-solving process can actually create more problems and misunderstandings.

The What, So What, Now What? problem-solving activity is designed to help collect insights and move forward while also eliminating the possibility of disagreement when it comes to identifying, clarifying, and analyzing organizational or work problems.

Facilitation is all about bringing groups together so that might work on a shared goal and the best problem-solving strategies ensure that teams are aligned in purpose, if not initially in opinion or insight.

Throughout the three steps of this game, you give everyone on a team to reflect on a problem by asking what happened, why it is important, and what actions should then be taken.

This can be a great activity for bringing our individual perceptions about a problem or challenge and contextualizing it in a larger group setting. This is one of the most important problem-solving skills you can bring to your organization.

W³ – What, So What, Now What? #issue analysis #innovation #liberating structures You can help groups reflect on a shared experience in a way that builds understanding and spurs coordinated action while avoiding unproductive conflict. It is possible for every voice to be heard while simultaneously sifting for insights and shaping new direction. Progressing in stages makes this practical—from collecting facts about What Happened to making sense of these facts with So What and finally to what actions logically follow with Now What . The shared progression eliminates most of the misunderstandings that otherwise fuel disagreements about what to do. Voila!

20. Journalists

Problem analysis can be one of the most important and decisive stages of all problem-solving tools. Sometimes, a team can become bogged down in the details and are unable to move forward.

Journalists is an activity that can avoid a group from getting stuck in the problem identification or problem analysis stages of the process.

In Journalists, the group is invited to draft the front page of a fictional newspaper and figure out what stories deserve to be on the cover and what headlines those stories will have. By reframing how your problems and challenges are approached, you can help a team move productively through the process and be better prepared for the steps to follow.

Journalists #vision #big picture #issue analysis #remote-friendly This is an exercise to use when the group gets stuck in details and struggles to see the big picture. Also good for defining a vision.

Problem-solving techniques for developing solutions

The success of any problem-solving process can be measured by the solutions it produces. After you’ve defined the issue, explored existing ideas, and ideated, it’s time to narrow down to the correct solution.

Use these problem-solving techniques when you want to help your team find consensus, compare possible solutions, and move towards taking action on a particular problem.

Improved Solutions
Four-Step Sketch
15% Solutions
How-Now-Wow matrix
Impact Effort Matrix

21. Mindspin

Brainstorming is part of the bread and butter of the problem-solving process and all problem-solving strategies benefit from getting ideas out and challenging a team to generate solutions quickly.

With Mindspin, participants are encouraged not only to generate ideas but to do so under time constraints and by slamming down cards and passing them on. By doing multiple rounds, your team can begin with a free generation of possible solutions before moving on to developing those solutions and encouraging further ideation.

This is one of our favorite problem-solving activities and can be great for keeping the energy up throughout the workshop. Remember the importance of helping people become engaged in the process – energizing problem-solving techniques like Mindspin can help ensure your team stays engaged and happy, even when the problems they’re coming together to solve are complex.

MindSpin #teampedia #idea generation #problem solving #action A fast and loud method to enhance brainstorming within a team. Since this activity has more than round ideas that are repetitive can be ruled out leaving more creative and innovative answers to the challenge.

22. Improved Solutions

After a team has successfully identified a problem and come up with a few solutions, it can be tempting to call the work of the problem-solving process complete. That said, the first solution is not necessarily the best, and by including a further review and reflection activity into your problem-solving model, you can ensure your group reaches the best possible result.

One of a number of problem-solving games from Thiagi Group, Improved Solutions helps you go the extra mile and develop suggested solutions with close consideration and peer review. By supporting the discussion of several problems at once and by shifting team roles throughout, this problem-solving technique is a dynamic way of finding the best solution.

Improved Solutions #creativity #thiagi #problem solving #action #team You can improve any solution by objectively reviewing its strengths and weaknesses and making suitable adjustments. In this creativity framegame, you improve the solutions to several problems. To maintain objective detachment, you deal with a different problem during each of six rounds and assume different roles (problem owner, consultant, basher, booster, enhancer, and evaluator) during each round. At the conclusion of the activity, each player ends up with two solutions to her problem.

23. Four Step Sketch

Creative thinking and visual ideation does not need to be confined to the opening stages of your problem-solving strategies. Exercises that include sketching and prototyping on paper can be effective at the solution finding and development stage of the process, and can be great for keeping a team engaged.

By going from simple notes to a crazy 8s round that involves rapidly sketching 8 variations on their ideas before then producing a final solution sketch, the group is able to iterate quickly and visually. Problem-solving techniques like Four-Step Sketch are great if you have a group of different thinkers and want to change things up from a more textual or discussion-based approach.

Four-Step Sketch #design sprint #innovation #idea generation #remote-friendly The four-step sketch is an exercise that helps people to create well-formed concepts through a structured process that includes: Review key information Start design work on paper, Consider multiple variations , Create a detailed solution . This exercise is preceded by a set of other activities allowing the group to clarify the challenge they want to solve. See how the Four Step Sketch exercise fits into a Design Sprint

24. 15% Solutions

Some problems are simpler than others and with the right problem-solving activities, you can empower people to take immediate actions that can help create organizational change.

Part of the liberating structures toolkit, 15% solutions is a problem-solving technique that focuses on finding and implementing solutions quickly. A process of iterating and making small changes quickly can help generate momentum and an appetite for solving complex problems.

Problem-solving strategies can live and die on whether people are onboard. Getting some quick wins is a great way of getting people behind the process.

It can be extremely empowering for a team to realize that problem-solving techniques can be deployed quickly and easily and delineate between things they can positively impact and those things they cannot change.

15% Solutions #action #liberating structures #remote-friendly You can reveal the actions, however small, that everyone can do immediately. At a minimum, these will create momentum, and that may make a BIG difference. 15% Solutions show that there is no reason to wait around, feel powerless, or fearful. They help people pick it up a level. They get individuals and the group to focus on what is within their discretion instead of what they cannot change. With a very simple question, you can flip the conversation to what can be done and find solutions to big problems that are often distributed widely in places not known in advance. Shifting a few grains of sand may trigger a landslide and change the whole landscape.

25. How-Now-Wow Matrix

The problem-solving process is often creative, as complex problems usually require a change of thinking and creative response in order to find the best solutions. While it’s common for the first stages to encourage creative thinking, groups can often gravitate to familiar solutions when it comes to the end of the process.

When selecting solutions, you don’t want to lose your creative energy! The How-Now-Wow Matrix from Gamestorming is a great problem-solving activity that enables a group to stay creative and think out of the box when it comes to selecting the right solution for a given problem.

Problem-solving techniques that encourage creative thinking and the ideation and selection of new solutions can be the most effective in organisational change. Give the How-Now-Wow Matrix a go, and not just for how pleasant it is to say out loud.

How-Now-Wow Matrix #gamestorming #idea generation #remote-friendly When people want to develop new ideas, they most often think out of the box in the brainstorming or divergent phase. However, when it comes to convergence, people often end up picking ideas that are most familiar to them. This is called a ‘creative paradox’ or a ‘creadox’. The How-Now-Wow matrix is an idea selection tool that breaks the creadox by forcing people to weigh each idea on 2 parameters.

26. Impact and Effort Matrix

All problem-solving techniques hope to not only find solutions to a given problem or challenge but to find the best solution. When it comes to finding a solution, groups are invited to put on their decision-making hats and really think about how a proposed idea would work in practice.

The Impact and Effort Matrix is one of the problem-solving techniques that fall into this camp, empowering participants to first generate ideas and then categorize them into a 2×2 matrix based on impact and effort.

Activities that invite critical thinking while remaining simple are invaluable. Use the Impact and Effort Matrix to move from ideation and towards evaluating potential solutions before then committing to them.

Impact and Effort Matrix #gamestorming #decision making #action #remote-friendly In this decision-making exercise, possible actions are mapped based on two factors: effort required to implement and potential impact. Categorizing ideas along these lines is a useful technique in decision making, as it obliges contributors to balance and evaluate suggested actions before committing to them.

27. Dotmocracy

If you’ve followed each of the problem-solving steps with your group successfully, you should move towards the end of your process with heaps of possible solutions developed with a specific problem in mind. But how do you help a group go from ideation to putting a solution into action?

Dotmocracy – or Dot Voting -is a tried and tested method of helping a team in the problem-solving process make decisions and put actions in place with a degree of oversight and consensus.

One of the problem-solving techniques that should be in every facilitator’s toolbox, Dot Voting is fast and effective and can help identify the most popular and best solutions and help bring a group to a decision effectively.

Dotmocracy #action #decision making #group prioritization #hyperisland #remote-friendly Dotmocracy is a simple method for group prioritization or decision-making. It is not an activity on its own, but a method to use in processes where prioritization or decision-making is the aim. The method supports a group to quickly see which options are most popular or relevant. The options or ideas are written on post-its and stuck up on a wall for the whole group to see. Each person votes for the options they think are the strongest, and that information is used to inform a decision.

All facilitators know that warm-ups and icebreakers are useful for any workshop or group process. Problem-solving workshops are no different.

Use these problem-solving techniques to warm up a group and prepare them for the rest of the process. Activating your group by tapping into some of the top problem-solving skills can be one of the best ways to see great outcomes from your session.

Check-in/Check-out
Doodling Together
Show and Tell
Constellations
Draw a Tree

28. Check-in / Check-out

Solid processes are planned from beginning to end, and the best facilitators know that setting the tone and establishing a safe, open environment can be integral to a successful problem-solving process.

Check-in / Check-out is a great way to begin and/or bookend a problem-solving workshop. Checking in to a session emphasizes that everyone will be seen, heard, and expected to contribute.

If you are running a series of meetings, setting a consistent pattern of checking in and checking out can really help your team get into a groove. We recommend this opening-closing activity for small to medium-sized groups though it can work with large groups if they’re disciplined!

Check-in / Check-out #team #opening #closing #hyperisland #remote-friendly Either checking-in or checking-out is a simple way for a team to open or close a process, symbolically and in a collaborative way. Checking-in/out invites each member in a group to be present, seen and heard, and to express a reflection or a feeling. Checking-in emphasizes presence, focus and group commitment; checking-out emphasizes reflection and symbolic closure.

29. Doodling Together

Thinking creatively and not being afraid to make suggestions are important problem-solving skills for any group or team, and warming up by encouraging these behaviors is a great way to start.

Doodling Together is one of our favorite creative ice breaker games – it’s quick, effective, and fun and can make all following problem-solving steps easier by encouraging a group to collaborate visually. By passing cards and adding additional items as they go, the workshop group gets into a groove of co-creation and idea development that is crucial to finding solutions to problems.

Doodling Together #collaboration #creativity #teamwork #fun #team #visual methods #energiser #icebreaker #remote-friendly Create wild, weird and often funny postcards together & establish a group’s creative confidence.

30. Show and Tell

You might remember some version of Show and Tell from being a kid in school and it’s a great problem-solving activity to kick off a session.

Asking participants to prepare a little something before a workshop by bringing an object for show and tell can help them warm up before the session has even begun! Games that include a physical object can also help encourage early engagement before moving onto more big-picture thinking.

By asking your participants to tell stories about why they chose to bring a particular item to the group, you can help teams see things from new perspectives and see both differences and similarities in the way they approach a topic. Great groundwork for approaching a problem-solving process as a team!

Show and Tell #gamestorming #action #opening #meeting facilitation Show and Tell taps into the power of metaphors to reveal players’ underlying assumptions and associations around a topic The aim of the game is to get a deeper understanding of stakeholders’ perspectives on anything—a new project, an organizational restructuring, a shift in the company’s vision or team dynamic.

31. Constellations

Who doesn’t love stars? Constellations is a great warm-up activity for any workshop as it gets people up off their feet, energized, and ready to engage in new ways with established topics. It’s also great for showing existing beliefs, biases, and patterns that can come into play as part of your session.

Using warm-up games that help build trust and connection while also allowing for non-verbal responses can be great for easing people into the problem-solving process and encouraging engagement from everyone in the group. Constellations is great in large spaces that allow for movement and is definitely a practical exercise to allow the group to see patterns that are otherwise invisible.

Constellations #trust #connection #opening #coaching #patterns #system Individuals express their response to a statement or idea by standing closer or further from a central object. Used with teams to reveal system, hidden patterns, perspectives.

32. Draw a Tree

Problem-solving games that help raise group awareness through a central, unifying metaphor can be effective ways to warm-up a group in any problem-solving model.

Draw a Tree is a simple warm-up activity you can use in any group and which can provide a quick jolt of energy. Start by asking your participants to draw a tree in just 45 seconds – they can choose whether it will be abstract or realistic.

Once the timer is up, ask the group how many people included the roots of the tree and use this as a means to discuss how we can ignore important parts of any system simply because they are not visible.

All problem-solving strategies are made more effective by thinking of problems critically and by exposing things that may not normally come to light. Warm-up games like Draw a Tree are great in that they quickly demonstrate some key problem-solving skills in an accessible and effective way.

Draw a Tree #thiagi #opening #perspectives #remote-friendly With this game you can raise awarness about being more mindful, and aware of the environment we live in.

Each step of the problem-solving workshop benefits from an intelligent deployment of activities, games, and techniques. Bringing your session to an effective close helps ensure that solutions are followed through on and that you also celebrate what has been achieved.

Here are some problem-solving activities you can use to effectively close a workshop or meeting and ensure the great work you’ve done can continue afterward.

One Breath Feedback
Who What When Matrix
Response Cards

How do I conclude a problem-solving process?

All good things must come to an end. With the bulk of the work done, it can be tempting to conclude your workshop swiftly and without a moment to debrief and align. This can be problematic in that it doesn’t allow your team to fully process the results or reflect on the process.

At the end of an effective session, your team will have gone through a process that, while productive, can be exhausting. It’s important to give your group a moment to take a breath, ensure that they are clear on future actions, and provide short feedback before leaving the space.

The primary purpose of any problem-solving method is to generate solutions and then implement them. Be sure to take the opportunity to ensure everyone is aligned and ready to effectively implement the solutions you produced in the workshop.

Remember that every process can be improved and by giving a short moment to collect feedback in the session, you can further refine your problem-solving methods and see further success in the future too.

33. One Breath Feedback

Maintaining attention and focus during the closing stages of a problem-solving workshop can be tricky and so being concise when giving feedback can be important. It’s easy to incur “death by feedback” should some team members go on for too long sharing their perspectives in a quick feedback round.

One Breath Feedback is a great closing activity for workshops. You give everyone an opportunity to provide feedback on what they’ve done but only in the space of a single breath. This keeps feedback short and to the point and means that everyone is encouraged to provide the most important piece of feedback to them.

One breath feedback #closing #feedback #action This is a feedback round in just one breath that excels in maintaining attention: each participants is able to speak during just one breath … for most people that’s around 20 to 25 seconds … unless of course you’ve been a deep sea diver in which case you’ll be able to do it for longer.

34. Who What When Matrix

Matrices feature as part of many effective problem-solving strategies and with good reason. They are easily recognizable, simple to use, and generate results.

The Who What When Matrix is a great tool to use when closing your problem-solving session by attributing a who, what and when to the actions and solutions you have decided upon. The resulting matrix is a simple, easy-to-follow way of ensuring your team can move forward.

Great solutions can’t be enacted without action and ownership. Your problem-solving process should include a stage for allocating tasks to individuals or teams and creating a realistic timeframe for those solutions to be implemented or checked out. Use this method to keep the solution implementation process clear and simple for all involved.

Who/What/When Matrix #gamestorming #action #project planning With Who/What/When matrix, you can connect people with clear actions they have defined and have committed to.

35. Response cards

Group discussion can comprise the bulk of most problem-solving activities and by the end of the process, you might find that your team is talked out!

Providing a means for your team to give feedback with short written notes can ensure everyone is head and can contribute without the need to stand up and talk. Depending on the needs of the group, giving an alternative can help ensure everyone can contribute to your problem-solving model in the way that makes the most sense for them.

Response Cards is a great way to close a workshop if you are looking for a gentle warm-down and want to get some swift discussion around some of the feedback that is raised.

Response Cards #debriefing #closing #structured sharing #questions and answers #thiagi #action It can be hard to involve everyone during a closing of a session. Some might stay in the background or get unheard because of louder participants. However, with the use of Response Cards, everyone will be involved in providing feedback or clarify questions at the end of a session.

Save time and effort discovering the right solutions

A structured problem solving process is a surefire way of solving tough problems, discovering creative solutions and driving organizational change. But how can you design for successful outcomes?

With SessionLab, it’s easy to design engaging workshops that deliver results. Drag, drop and reorder blocks to build your agenda. When you make changes or update your agenda, your session timing adjusts automatically , saving you time on manual adjustments.

Collaborating with stakeholders or clients? Share your agenda with a single click and collaborate in real-time. No more sending documents back and forth over email.

Explore how to use SessionLab to design effective problem solving workshops or watch this five minute video to see the planner in action!

Over to you

The problem-solving process can often be as complicated and multifaceted as the problems they are set-up to solve. With the right problem-solving techniques and a mix of creative exercises designed to guide discussion and generate purposeful ideas, we hope we’ve given you the tools to find the best solutions as simply and easily as possible.

Is there a problem-solving technique that you are missing here? Do you have a favorite activity or method you use when facilitating? Let us know in the comments below, we’d love to hear from you!

thank you very much for these excellent techniques

Certainly wonderful article, very detailed. Shared!

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What is Problem Solving? How to Do It? Step-by-Step Techniques

A blackboard is seen, with several light bulbs drawn on it in white. In the center of the board, a large light bulb with a white outline is drawn. The bulb is surrounded by several other smaller light bulbs. To the right of the light bulbs is a man wearing glasses, looking intently. At the top of the board are two white letter Os drawn on a black background. At the bottom, there is another white letter O on a black background. The light bulbs and letter Os bring a sense of creativity to the blackboard. All the objects are illuminated by a bright light, making the board stand out.

In today's complex and rapidly changing world, problem-solving skills have become indispensable for individuals and organizations. These skills are crucial for navigating the myriad challenges we face in various aspects of our lives, personal, professional, or societal. As a cognitive process, problem-solving involves identifying and analyzing difficulties, generating potential solutions, and implementing effective strategies to overcome them.

In this blog post, we will delve into problem-solving, elucidate its significance, and provide a step-by-step guide to mastering the art and science of problem-solving techniques. The tone of this article will remain academic, focusing on giving well-researched and practical information to aid our understanding and application of this essential skill.

What is Problem Solving?

Problem-solving is a cognitive process that involves identifying, analyzing, and resolving challenges or obstacles in various aspects of life, including personal, professional, and societal situations. It is a crucial skill for successfully navigating the complexities of everyday life and making well-informed decisions.

The process of problem-solving typically consists of several stages:

Problem identification: Recognizing that a problem exists and understanding its nature.

Problem analysis: Gathering information and examining the problem to understand its underlying causes and constraints.

Generating solutions: Brainstorming and evaluating potential solutions, considering different approaches, and selecting the most viable ones.

Implementing solutions: Putting the chosen solutions into action and monitoring their effectiveness.

Evaluating outcomes: Assessing the results of the implemented solutions, determining if the problem has been resolved, and making adjustments as necessary.

Problem-solving can be approached through various methods and techniques, such as analytical, creative, or systematic thinking, depending on the nature of the problem and the context in which it is presented. Developing practical problem-solving skills requires practice, critical thinking, and adapting to changing circumstances.

A good graphical representation of the problem-solving process would be to use a flowchart or mind map. For each stage of the process, you could include a brief description of the step, followed by an example of how it could be applied.

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Cultural Thinking: Thomas Watson Sr. and IBM's Approach

Problem-solving is the art of transforming challenges into opportunities, weaving creative solutions into the fabric of success. IIENSTITU

What are problem-solving skills?

Problem-solving skills are a set of cognitive, interpersonal, and practical abilities that enable individuals to effectively identify, analyze, and resolve challenges they encounter in various aspects of life. These skills are essential for making well-informed decisions, overcoming obstacles, and achieving personal and professional goals. Some critical problem-solving skills include:

Analytical thinking: The ability to break down complex problems into smaller, manageable components, examine their relationships and understand underlying causes and patterns.

Critical thinking: The capacity to objectively evaluate information, identify biases, question assumptions, and determine the relevance and reliability of available data.

Creative thinking: The ability to generate innovative ideas, explore unconventional approaches, and combine existing concepts in novel ways to develop effective solutions.

Decision-making: Choosing the most suitable solution from available options based on careful analysis, evaluation, and prioritization.

Communication: The capacity to effectively convey and receive information, listen actively, ask pertinent questions, and collaborate with others to address problems.

Adaptability: The ability to adjust to changing circumstances, cope with ambiguity, and modify strategies as new information becomes available or conditions evolve.

Emotional intelligence: The skill of recognizing, understanding, and managing one's emotions and those of others, which can influence the problem-solving process and its outcomes.

Implementation and monitoring: The ability to implement chosen solutions, monitor their effectiveness, and make necessary adjustments to improve results.

Developing strong problem-solving skills requires practice, self-reflection, and a willingness to learn from experience. By honing these skills, individuals can more effectively tackle challenges and achieve their objectives in various aspects of life.

Problem-solving skills are the keys that unlock life's complex doors, paving the way to innovation, growth, and success IIENSTITU

Analytical Thinking: 8 Critical Thinking: 9 Creative Thinking: 7 Decision-Making: 8 Communication: 9 Adaptability: 6 Emotional Intelligence: 7 Implementation and Monitoring: 8

How to Improve Your Problem-Solving Skills?

Improving your problem-solving skills involves developing your cognitive, interpersonal, and practical abilities to tackle challenges effectively and make well-informed decisions. Here are some strategies to enhance your problem-solving skills:

Practice active learning: Engage in activities that challenge your thinking and require you to solve problems, such as puzzles, riddles, or brainteasers. Pursue new knowledge, skills, and experiences to expand your understanding of different subject areas and perspectives.

Develop critical thinking: Cultivate the habit of questioning assumptions, evaluating evidence, and considering multiple viewpoints. Learn to identify logical fallacies, biases, and inconsistencies in reasoning.

Foster creativity: Engage in activities encouraging creative thinking, such as brainstorming, mind mapping, or artistic pursuits. Embrace a growth mindset and be open to new ideas and perspectives.

Strengthen decision-making abilities: Practice making decisions based on careful analysis, evaluation, and prioritization of available information. Reflect on past decisions to learn from successes and failures.

Enhance communication skills: Develop active listening, effective questioning, and precise expression abilities. Participate in group discussions or join clubs that involve collaborative problem-solving activities.

Cultivate adaptability: Embrace change and be prepared to adjust your strategies as new information becomes available or conditions evolve. Learn from your experiences and be open to feedback.

Build emotional intelligence: Develop self-awareness and learn to manage your emotions during problem-solving. Practice empathy and understand the feelings and perspectives of others involved in problem-solving.

Reflect on your experiences: Regularly assess your problem-solving skills by analyzing your successes and failures. Identify areas where you excel and areas that need improvement. Seek feedback from peers, mentors, or supervisors to gain insights into your performance.

Set SMART goals: Establish specific, measurable, achievable, relevant, and time-bound goals for improving your problem-solving skills. Monitor your progress and adjust your strategies as needed.

Learn from others: Observe how others approach problem-solving, especially those skilled in this area. Seek mentorship or participate in workshops, seminars, or online courses on problem-solving techniques and strategies.

By consistently practicing and refining these strategies, you can gradually improve your problem-solving skills and become more adept at addressing challenges in various aspects of your life.

Sharpen your problem-solving prowess by embracing curiosity, cultivating adaptability, and seeking diverse perspectives – the keys to unlocking life's complex puzzles. IIENSTITU

The Problem-Solving Process: A Comprehensive Guide

In today's fast-paced and dynamic world, individuals and organizations face challenges requiring practical problem-solving abilities. To navigate these complexities and make well-informed decisions, it is crucial to have a structured approach to identifying, analyzing, and addressing issues. The problem-solving process is a framework for systematically tackling problems and ensuring successful outcomes. In this blog section, we will explore the various stages of the problem-solving process, discuss their importance, and provide valuable insights to help you master this essential skill. By comprehensively understanding this process, you can enhance your problem-solving abilities and achieve tremendous success in your personal and professional life.

Define the Problem: The Foundation of Effective Problem Solving

An illustration depicting the significance of defining the problem in the problem-solving process, featuring a magnifying glass scrutinizing the issue, a sturdy base symbolizing the foundation, and an array of problem-solving tools and techniques branching out from the core concept.

The first and arguably most critical step in the problem-solving process is defining the problem. An apparent, well-defined problem is the foundation for all subsequent stages, allowing you to understand the issue at hand better and develop targeted solutions. To effectively define the problem, you should gather relevant information, identify the root causes and constraints, and distinguish between the symptoms and the underlying issues.

Begin by asking open-ended questions to explore the problem's context and dimensions. For instance, consider questions such as: What are the symptoms of the issue? Who is affected by the problem, and how does it impact them? What are the potential causes? What factors or conditions contribute to the problem's existence? Additionally, it can be helpful to consider the situation from various perspectives, including those of the stakeholders involved.

Once you have gathered sufficient information, articulate the problem as a clear, concise statement summarizing the issue and its key elements. A well-defined problem statement provides a solid basis for further analysis and solution generation, helps maintain focus, and ensures that your problem-solving efforts are directed toward addressing the core issue. In addition, investing time and effort in defining the problem sets the stage for a more efficient and effective problem-solving process.

Generate Alternative Solutions: Unlocking the Potential of Diverse Approaches

a group of people sitting around a table

The second stage in the problem-solving process, generating alternative solutions, is essential for developing a comprehensive understanding of the available options and ensuring that the most effective solution is ultimately selected. This stage encourages creative thinking, challenging assumptions, and considering various perspectives to identify a wide range of potential solutions that address the problem.

To generate alternative solutions, employ brainstorming techniques, such as mind mapping, the Six Thinking Hats method, or the SCAMPER technique. These approaches can help you explore different angles, stimulate creativity, and tap into the collective knowledge of team members or stakeholders. In addition, it encourages open-mindedness and promotes an environment where unconventional ideas and diverse viewpoints are welcomed.

While generating solutions, resist the urge to evaluate or judge the ideas immediately. Instead, focus on creating a comprehensive list of possible solutions without discarding any options prematurely. Quantity, at this stage, is often more important than quality, as it allows you to consider a wide range of possibilities.

Once you have generated an extensive list of potential solutions, you can move on to the next stage of the problem-solving process, which involves evaluating, comparing, and prioritizing the alternatives. Again, investing time and effort in generating alternative solutions increases the likelihood of finding the most effective and innovative approach to addressing the problem.

Evaluate and Select an Alternative: Choosing the Optimal Solution

A diverse group of people analyzing data and discussing options around a table, representing the evaluation and selection of the optimal solution in problem-solving, with abstract shapes and patterns in cool blues, greens, and grays symbolizing the decision-making process.

After generating diverse potential solutions, the next step in the problem-solving process is to evaluate, compare, and ultimately select the most appropriate alternative. This stage thoroughly assesses each option, considering its feasibility, effectiveness, resource requirements, and potential consequences. Then, by systematically evaluating the other options, you can make an informed decision that best addresses the problem and aligns with your objectives.

To evaluate and select an alternative, consider the following steps:

Establish evaluation criteria: Identify the factors most relevant to the problem and your goals. These may include cost, time, resources, stakeholder impact, risks, or potential benefits. Ensure that the criteria are measurable and specific to facilitate objective comparisons.

Rank the alternatives: Assess each solution against the established criteria, assigning scores or ratings based on performance. This can be done using various techniques, such as decision matrices, cost-benefit analysis, or risk assessment models. These methods can help you systematically compare the options and determine their relative strengths and weaknesses.

Weigh the trade-offs: Recognize that each solution may have its advantages and drawbacks, and it is essential to balance these factors. Consider each alternative's short-term and long-term consequences and the potential risks and uncertainties associated with their implementation.

Prioritize and select: Based on the evaluation, prioritize the alternatives and choose the one that best meets the criteria, addresses the problem effectively, and aligns with your goals. Remember that sometimes, a combination of solutions may be more effective than a single approach.

Seek feedback and validation: Consult with stakeholders, team members, or subject matter experts to validate your choice and gather additional insights. This helps ensure that the selected solution is well-founded and has the support of those affected by the problem.

By carefully evaluating and selecting an alternative, you can confidently move forward in the problem-solving process, knowing that you have chosen the most effective and well-suited solution to address the issue.

Implement and Follow Up on the Solution: Ensuring Success and Continuous Improvement

This image features a group of people posing for a picture. There are approximately 12 people in the photo, all of whom are smiling. The majority of the individuals are wearing casual clothing such as jeans and t-shirts. One person is wearing a bright red dress, standing in the center of the picture. In the background, one can see a green field with trees. The sky is bright blue and filled with wispy white clouds. Everyone looks happy and excited to be taking the photo together. They are standing in a semi-circle formation, each person with their arms around the person next to them. It's a beautiful summer day and the perfect moment captured in time.

With the optimal solution selected, the next stage in the problem-solving process is implementing the chosen alternative and monitoring its effectiveness. This stage involves implementing the key, managing resources, and ensuring the desired outcomes. Finally, following up on the solution allows you to assess its success, identify areas for improvement, and make necessary adjustments to enhance results.

To effectively implement and follow up on the solution, consider the following steps:

Develop an implementation plan: Outline the steps required to put the solution into action, including timelines, resource allocation, and responsibilities. Establish clear objectives, milestones, and performance indicators to measure progress and success.

Communicate and engage stakeholders: Inform relevant stakeholders about the chosen solution, its rationale, and the implementation plan. Engage them in the process, and address any concerns or questions. This can help to ensure buy-in and facilitate a smoother implementation.

Monitor progress: Regularly track the implementation of the solution against the established milestones and performance indicators. Assess whether the desired outcomes are achieved and any unforeseen challenges or obstacles that have emerged.

Evaluate results: Once the solution has been implemented, evaluate its effectiveness in addressing the problem. Consider both quantitative and qualitative data to assess the impact of the solution on the issue and its related aspects.

Make adjustments as needed: If the results indicate that the solution is not as effective as anticipated or if new information becomes available, be prepared to make adjustments or revisit the problem-solving process. This may involve refining the solution, implementing an alternative, or exploring additional options.

Reflect on the process: Analyze the problem-solving process to identify any lessons learned or areas for improvement. This can enhance your problem-solving skills and increase the likelihood of success in future endeavors.

By implementing and following up on the solution, you can ensure that the problem is effectively addressed and that continuous improvement is achieved. This proactive approach to problem-solving increases the chances of success and fosters a growth mindset and a commitment to excellence.

Discovering the World of Problem Solving: A Treasure Trove of Resources

Embarking on the journey to enhance your problem-solving skills requires diverse resources to guide and inspire you. From foundational literature to practical case studies, certifications, and multimedia learning experiences, there are abundant materials to help you build your expertise. This section will explore a captivating collection of resources to enrich your understanding of problem-solving strategies and techniques.

Unraveling the Mysteries of Problem-Solving: Books Worth Reading

Delve into the world of problem-solving with essential books authored by renowned experts, offering valuable insights, methodologies, and real-life examples. These comprehensive texts will equip you with the knowledge and tools to address complex challenges and improve your decision-making abilities.

Diving into Scholarly Wisdom: Engaging Articles

Stay up-to-date with the latest research and developments in problem-solving by reading scholarly articles from reputable journals and publications. These articles provide fresh perspectives, empirical findings, and cutting-edge approaches to enhance your problem-solving expertise.

Learning from Real-Life Experiences: Captivating Case Studies

Gain practical knowledge and inspiration from case studies showcasing real-world examples of practical problem-solving. These stories offer valuable lessons and insights into how individuals and organizations have successfully tackled challenges using innovative solutions and strategies.

Mastering the Art of Problem-Solving: Pursuing Certification

Pursue industry-recognized certifications to validate your problem-solving skills and demonstrate your proficiency to employers, colleagues, and clients. In addition, these certifications can enhance your credibility and open doors to new opportunities in your personal and professional life.

Expanding Your Horizons: Engaging Courses

Enroll in online or in-person courses to deepen your understanding of problem-solving techniques and gain hands-on experience with practical exercises and simulations. These structured learning opportunities allow you to learn from experts, collaborate with peers, and apply your newfound skills in real-life scenarios.

Embracing the Digital Age: Informative Webcasts

Discover a wealth of knowledge at your fingertips with webcasts featuring renowned experts and thought leaders discussing various problem-solving aspects. These digital presentations offer an interactive and convenient way to learn, allowing you to engage with presenters, ask questions, and explore topics in-depth from the comfort of your home or office.

By exploring these diverse and engaging resources, you can build a solid foundation in problem-solving, refine your skills, and unlock your full potential as a practical decision-maker and problem-solver.

Embark on the journey through the realm of problem-solving, where each challenge conquered unlocks a treasure chest of wisdom, growth, and success IIENSTITU

Expanding the Scope of Problem-Solving: Versatile Applications Across Diverse Sectors and Professions

Problem-solving techniques are essential to success across all industries and fields of work. Businesses, organizations, and individuals use problem-solving skills to tackle challenges, make decisions, and develop strategies to achieve their goals. Here are some sectors where problem-solving techniques can be applied:

Business and management: In the business world, problem-solving can be applied in project management, process improvement, strategic planning, and decision-making.

Engineering and technology: Engineers and technicians use problem-solving techniques to design, develop, and troubleshoot various systems, products, and processes. This can include civil, mechanical, electrical, and software engineering.

Healthcare professionals use problem-solving skills to diagnose and treat patients, manage healthcare systems, and develop new treatments and medical technologies.

Education: Educators and administrators apply problem-solving strategies to develop and implement effective teaching methods, manage classrooms, and address challenges within the educational system.

Finance and economics: Financial analysts, economists, and other professionals use problem-solving techniques to analyze economic trends, manage investments, and develop financial strategies for individuals and organizations.

Science and research: Scientists and researchers employ problem-solving skills to design experiments, interpret data, and develop new theories and solutions in various fields, including physics, chemistry, and biology.

Public sector and government: Public administrators and policymakers use problem-solving techniques to address societal challenges, develop and implement public policies, and manage government programs and services.

Non-profit and social work: Professionals in non-profit organizations and social work apply problem-solving strategies to address social issues, develop programs, and provide services to those in need.

Arts and creative industries: Artists, designers, and other creative professionals use problem-solving techniques to develop innovative ideas, create compelling works of art, and navigate the challenges of their industries.

Law and legal practice: Lawyers, judges, and other legal professionals use problem-solving skills to interpret laws, analyze cases, and develop legal strategies for their clients.

Marketing and advertising: Professionals in marketing and advertising use problem-solving techniques to develop innovative campaigns, analyze market trends, and optimize advertising strategies for better audience engagement.

Human resources: HR professionals apply problem-solving skills to manage employee relations, develop training programs, resolve workplace conflicts, and create effective recruitment strategies.

Environmental and sustainability: Experts in environmental management, conservation, and sustainability use problem-solving techniques to address ecological challenges, develop sustainable practices, and implement environmental policies.

Agriculture and food production: Farmers, agronomists, and professionals use problem-solving skills to optimize crop yields, manage pests and diseases, and develop innovative farming techniques.

Real estate and urban planning: Real estate professionals and urban planners employ problem-solving techniques to address issues related to land use, zoning, property management, and urban development.

Logistics and supply chain management: Logistics and supply chain management professionals use problem-solving skills to optimize transportation routes, manage inventory levels, and improve overall efficiency in moving goods.

Manufacturing and production: Manufacturing professionals apply problem-solving techniques to streamline production processes, enhance product quality, and reduce waste.

Sports and fitness: Coaches, trainers, and athletes use problem-solving skills to develop training programs, improve performance, and address challenges related to physical fitness and athletic competition.

Hospitality and tourism: Professionals in the hospitality and tourism industry apply problem-solving strategies to enhance customer experiences, manage operational challenges, and develop new services and offerings.

Information and library services: Librarians and information specialists use problem-solving techniques to manage collections, develop information retrieval systems, and address challenges in accessing and preserving knowledge resources.

These additional examples highlight the universality of problem-solving techniques, emphasizing their importance across various sectors, professions, and contexts. Cultivating problem-solving skills can significantly contribute to personal and professional success, regardless of the field or industry.

Mastering the Art of Problem-Solving: A Six-Step Guide to Conquering Challenges

In today's fast-paced world, solving problems effectively is essential for personal and professional success. Whether tackling a complex project at work or navigating life's everyday hurdles, following a structured approach can make all the difference. This blog post will explore a six-step guide that will empower you to address challenges confidently and develop creative solutions.

Step 1: Define the Problem

The first step in any problem-solving process is clearly defining the problem at hand. Begin by identifying your issue, and try articulating it as accurately and precisely as possible. Next, consider any underlying causes, constraints, or factors influencing the situation. You can lay a solid foundation for developing practical solutions by thoroughly understanding the problem.

Step 2: Generate Possible Solutions

Once you clearly understand the problem, it is time to brainstorm potential solutions. At this stage, encourage creativity and open-mindedness, and avoid prematurely judging or dismissing any ideas. The goal is to generate diverse possible solutions that can be evaluated and refined later. Techniques such as mind mapping, the Six Thinking Hats method, or the SCAMPER technique can be helpful in this process.

Step 3: Evaluate Alternatives

With a list of potential solutions, the next step is to evaluate each alternative based on its feasibility, effectiveness, and possible consequences. First, establish criteria for evaluation, such as cost, time, resources, and impact on stakeholders. Then, systematically assess each solution against these criteria, identifying the strengths and weaknesses of each option.

Step 4: Decide on a Solution

After evaluating the alternatives:

Prioritize the options and select the solution that best addresses the problem and aligns with your goals.

Remember that sometimes, a combination of solutions may be more effective than a single approach.

Consider any potential trade-offs, risks, and uncertainties associated with your chosen answer.

Step 5: Implement the Solution

With a well-informed decision, it is time to implement the chosen solution. Develop an implementation plan outlining the steps, resources, and timelines required for success. Communicate the plan to relevant stakeholders, and be prepared to address any questions or concerns.

Step 6: Evaluate the Outcome

Once the solution has been implemented, monitor its effectiveness by evaluating the results against the initial problem and your established criteria. If the solution does not yield the desired outcomes or new information emerges, be prepared to adjust or revisit the problem-solving process. Finally, reflect on the experience to identify any lessons learned and areas for improvement, fostering a growth mindset and continuous improvement.

By following this six-step guide, you can develop a structured and practical approach to problem-solving that will enable you to navigate challenges confidently and creatively. Whether you face professional or personal obstacles, these steps can empower you to overcome adversity and achieve your goals.

Problem Identification, Observation, Critical Thinking, Enhance observation skills, practice critical thinking exercises, Problem Analysis, Analytical Thinking, Data Gathering, Engage in tasks that require analysis, learn how to effectively gather and interpret data, Generating Solutions, Brainstorming, Creative Thinking, Regularly brainstorm, practice thinking outside the box, Implementing Solutions, Decision-Making, Communication, Practice making decisions under pressure, improve communication skills by active listening and assertiveness training, Evaluating Outcomes, Critical Thinking, Objective Evaluation, Learn to give and receive feedback, practice evaluating outcomes objectively, Adaptability, Emotional Intelligence, Flexibility, Develop emotional intelligence, face new situations to promote flexibility, Emotional Intelligence, Empathy, Self-Awareness, Practice empathy, engage in self-reflection, Implementation and Monitoring, Project Management, Attention to Detail, Learn basic project management principles, cultivate focus and attention to detail, Analytical Thinking, Data Analysis, Reasoning, Engage in activities that require data analysis, practice reasoning skills, Communication, Active Listening, Clear Articulation, Develop active listening techniques, practice clear and concise articulation

How can you develop an action plan for implementing and evaluating your chosen solution using the six-step problem-solving guide?

To develop an action plan for implementing and evaluating your chosen solution using the six-step problem-solving guide, follow these steps:

Revisit your chosen solution from Step 4 and outline the specific actions required to implement it. Break down the key into smaller, manageable tasks.

Assign responsibilities for each task to the relevant individuals or teams. Clearly define their roles and expectations to ensure accountability and commitment.

Develop a timeline for each task, considering any dependencies or prerequisites. This will help you prioritize tasks and monitor progress over time.

Allocate necessary resources, such as budget, tools, and personnel, to support the implementation of the solution effectively and efficiently.

Establish performance indicators or success criteria that will allow you to measure the effectiveness of your solution once implemented. These indicators should be aligned with the initial problem and the goals you aim to achieve.

Communicate the action plan to all relevant stakeholders, ensuring they understand their roles and the overall objectives. This will promote collaboration and facilitate a smoother implementation process.

Regularly monitor the progress of your action plan, making adjustments as needed to address any unforeseen challenges or changes in circumstances. Keep stakeholders informed of any updates or modifications.

After implementing the solution, evaluate its effectiveness by comparing the results with the established performance indicators or success criteria. Reflect on the process, identify lessons learned, and apply these insights to improve future problem-solving efforts.

By following these steps, you can develop a comprehensive action plan that ensures your chosen solution's successful implementation and evaluation within the context of the six-step problem-solving guide.

Step 1: Define the ProblemBegin by clearly defining the problem you are trying to solve. This involves identifying the root cause, understanding its impact, and determining the desired outcome or solution. This step will provide a clear focus for developing your action plan.Step 2: Generate Possible SolutionsBrainstorm and generate a list of possible solutions to address the problem. Encourage diverse perspectives and creativity during this step. It's important to consider different alternatives to increase the likelihood of finding the most effective solution.Step 3: Evaluate and Select the Best SolutionEvaluate each potential solution based on feasibility, effectiveness, and alignment with your goals. Consider the resources required, the potential risks involved, and the expected outcomes. Select the solution that best meets your criteria and has the highest chances of success.Step 4: Develop an Action PlanOnce you have selected your solution, it's time to create a clear and detailed action plan for its implementation and evaluation. Break down the solution into actionable steps and assign responsibilities to team members or individuals involved.Include specific tasks, timelines, and milestones in your action plan. This will ensure everyone is aware of their roles and deadlines, facilitating effective coordination and monitoring of progress.Step 5: Implement the SolutionExecute the action plan by implementing the chosen solution. Keep track of the progress, communicate regularly with the team members, and address any obstacles or challenges that arise during the implementation process. Regular updates and feedback can help ensure the solution is being implemented effectively.Step 6: Evaluate the OutcomeAfter successfully implementing the solution, it is crucial to evaluate its effectiveness. Determine whether the desired outcome has been achieved and assess any changes or improvements resulting from the solution. Use relevant metrics or indicators to measure success and gather feedback from stakeholders.Based on the evaluation, identify any areas that may require further improvement or adjustment. This feedback will aid in refining future problem-solving approaches and enhance the overall decision-making process.By following these six steps, you can develop an action plan for implementing and evaluating your chosen solution effectively. Remember to monitor progress, adapt as necessary, and continuously strive for improvement. Through careful planning and evaluation, you can increase the chances of successful problem-solving and decision-making within your organization or personal endeavors.

How can we effectively integrate problem-solving techniques into our daily routines to overcome challenges and improve decision-making in our personal and professional lives?

To effectively integrate problem-solving techniques into our daily routines, we can follow these practical steps:

Cultivate mindfulness: Begin by developing an awareness of the challenges and decisions you face daily. This heightened sense of mindfulness will help you recognize opportunities to apply problem-solving techniques in various aspects of your life.

Embrace a structured approach: Adopt the six-step problem-solving process outlined earlier, and apply it consistently across personal and professional challenges. This structured approach can help you address issues systematically, leading to more informed and practical solutions.

Develop critical thinking habits: Cultivate the habit of questioning assumptions, evaluating evidence, and considering multiple perspectives when facing daily challenges. Necessary thinking skills are essential for effective problem-solving and can be developed through practice and reflection.

Practice active listening: When engaging with others, practice active listening to understand their concerns and ideas thoroughly. This can help you identify potential problems and develop collaborative solutions daily.

Allocate time for reflection: Set aside time each day to reflect on the challenges you've encountered and your decisions. This daily reflection will help you identify patterns, improve your problem-solving skills, and make better choices.

Learn from mistakes: Embrace a growth mindset and view failures or setbacks as opportunities for learning and growth. You can continuously improve your problem-solving abilities by analyzing mistakes and adjusting your approach daily.

By incorporating these habits and practices into your daily routine, you can effectively integrate problem-solving techniques and enhance your ability to tackle challenges and make better decisions in both your personal and professional life.

1. Define the Problem: The first step in problem-solving is to clearly define the problem at hand. This involves identifying the specific issue or challenge that needs to be addressed. Take the time to analyze and break down the problem into smaller, more manageable parts.2. Gather Information: Once the problem is defined, gather all the relevant information and data related to it. This can involve conducting research, reaching out to subject matter experts, or simply brainstorming possible solutions. The more information you have, the better equipped you will be to find effective solutions.3. Analyze and Evaluate: Once you have gathered all the necessary information, analyze and evaluate the different options available to solve the problem. Consider the potential pros and cons of each solution and weigh them against each other. This will help you determine the best course of action.4. Generate Solutions: Using the information and analysis, generate a list of potential solutions to the problem. Be creative and open-minded during this process, considering all possible options. This step allows you to think outside the box and explore innovative solutions that may not have been immediately apparent.5. Select the Best Solution: After generating a list of potential solutions, carefully evaluate each one and select the best option. Consider factors such as feasibility, cost-effectiveness, and long-term implications. Choose the solution that aligns with your goals and priorities.6. Implement the Solution: Once you have selected the best solution, take action and implement it. Break down the solution into smaller, manageable steps and create a detailed plan for execution. Assign responsibilities and set deadlines to ensure accountability.7. Monitor and Evaluate: After implementing the solution, continuously monitor and evaluate its progress. Determine whether the solution is effective and producing the desired results. If necessary, make adjustments or modifications to improve its efficiency.8. Learn from the Process: Every problem-solving experience provides an opportunity for learning and growth. Reflect on the process and outcome of the solution. Take note of what worked well and what could be improved upon for future problem-solving endeavors.By integrating these problem-solving techniques into our daily routines, we develop a proactive mindset to overcome challenges and improve decision-making. This approach enhances our ability to identify and address problems head-on, leading to personal and professional growth. Remember, consistency and practice are key to developing problem-solving skills and making them a natural part of our daily lives.

How can a problem-solving team apply the six-step guide to tackle complex challenges and enhance overall team performance?

A problem-solving team can apply the six-step guide effectively by fostering clear communication, collaboration, and diverse perspectives. By defining the problem collectively, generating a wide range of possible solutions, evaluating alternatives as a team, deciding on the most suitable solution, implementing it together, and assessing the outcome, the problem-solving team can leverage their unique strengths and expertise to overcome complex challenges and enhance overall team performance.

Clear communication is essential for a problem-solving team to effectively apply the six-step guide. Each team member should actively participate and share their thoughts and ideas without any fear of judgment. By fostering open and honest communication, the team can ensure that everyone has a shared understanding of the problem and its complexities.Collaboration is another important aspect of utilizing the six-step guide. The team should work together, leveraging each member's unique skills and knowledge, to generate a wide range of possible solutions. By encouraging collaboration, the team can increase creativity and generate new ideas that may not have been considered individually.Diverse perspectives also play a crucial role in tackling complex challenges. It is important for the problem-solving team to have members with diverse backgrounds, experiences, and expertise. This diversity brings different viewpoints and approaches to the table, allowing the team to explore multiple angles and come up with more innovative solutions.Defining the problem collectively is a key step in the six-step guide. The team should engage in a thorough analysis and discussion to fully understand the challenges at hand. By collectively defining the problem, the team can ensure that everyone is aligned and working towards a common goal.Once the problem is clearly defined, the team should generate a wide range of possible solutions. This step involves brainstorming and encouraging creativity, allowing team members to freely contribute their ideas. The focus should be on quantity rather than quality at this stage, as it helps in exploring various options and possibilities.After generating the possible solutions, the team should evaluate them together. Each solution should be rigorously analyzed, considering its feasibility, potential risks, and benefits. By evaluating alternatives as a team, the problem-solving team can make more informed decisions and choose the most suitable solution.Once a decision is made, the team should then proceed with implementing the chosen solution together. Each member should actively contribute to the implementation process, sharing their expertise and ensuring that the solution is effectively executed. Collaboration and regular communication during the implementation phase are crucial to overcome any obstacles or challenges that may arise.After the solution is implemented, it is important for the problem-solving team to assess the outcome and evaluate its effectiveness. This step involves reflecting on the results, identifying any areas for improvement, and learning from the experience. By conducting a thorough assessment, the team can continuously enhance their problem-solving skills and overall team performance.In conclusion, a problem-solving team can effectively apply the six-step guide by fostering clear communication, collaboration, and diverse perspectives. By collectively defining the problem, generating a wide range of possible solutions, evaluating alternatives as a team, deciding on the most suitable solution, implementing it together, and assessing the outcome, the team can tackle complex challenges and enhance overall team performance.

Do you have any suggestions for tools we can use for problem-solving?

Certainly! Numerous tools and techniques can be employed to support problem-solving efforts. Here are some popular options:

Brainstorming : A creative technique that encourages open and free-flowing idea generation, helping to identify a wide range of potential solutions.

Mind Mapping : A visual tool that helps organize and structure information, enabling you to explore the relationships and connections between different ideas and aspects of a problem.

SWOT Analysis : A strategic planning method that assesses the strengths, weaknesses, opportunities, and threats related to a specific problem or situation, aiding decision-making and planning.

Root Cause Analysis : A technique used to identify the underlying causes of a problem rather than focusing solely on the symptoms. Tools like the 5 Whys and Fishbone Diagram (Ishikawa) can be helpful in this process.

Decision Matrix : A tool that helps prioritize and evaluate different solutions based on specific criteria, such as cost, time, and impact, enabling you to make more informed decisions.

Six Thinking Hats : A technique developed by Edward de Bono that promotes structured and parallel thinking, encouraging individuals to approach problems from different perspectives.

SCAMPER : An acronym for Substitute, Combine, Adapt, Modify, Put to another use, Eliminate, and Reverse, SCAMPER is a creative tool that prompts you to think about a problem or idea from different angles, generating innovative solutions.

Cost-Benefit Analysis: A financial tool that compares the costs and benefits of different solutions, helping you determine the most economically viable option.

Pareto Analysis (80/20 Rule) : A technique used to prioritize problems or solutions based on the principle that 80% of the effects come from 20% of the causes.

Pro-Con List: A simple yet effective tool to weigh the pros and cons of different solutions, facilitating objective decision-making.

Incorporating these tools and techniques into your problem-solving process can enhance your ability to analyze challenges, generate innovative solutions, and make more informed decisions.

One effective tool is the Action Priority Matrix. This matrix divides problems or tasks into four quadrants based on their level of priority and urgency. By categorizing problems in this way, individuals or teams can focus on addressing high-priority issues first, ensuring that resources are utilized efficiently and effectively.Another useful tool is the Fishbone Diagram, also known as the Ishikawa Diagram. This tool helps identify root causes of a problem by organizing potential causes into different categories such as people, processes, materials, technology, and environment. By visually mapping out the various causes, individuals or teams can analyze the problem more comprehensively and identify areas for improvement.The Pareto Analysis, also known as the 80/20 rule, is another efficient problem-solving tool. This technique focuses on identifying and addressing the vital few causes that contribute to the majority of problems or challenges. By prioritizing and tackling these significant causes, individuals or teams can achieve maximum impact with minimum effort.Brainstorming is a commonly used technique to generate creative solutions to problems. This tool involves gathering a diverse group of individuals and encouraging them to freely share ideas and suggestions. The goal is to generate a wide range of potential solutions without any judgment or criticism. By fostering an open and collaborative environment, brainstorming can lead to innovative and unconventional solutions.Finally, the 5 Whys technique is a powerful tool to get to the root cause of a problem. By repeatedly asking why about a problem, individuals or teams can uncover deeper layers of causative factors. This helps to identify the underlying reasons behind the problem, enabling more targeted and effective solutions.In conclusion, problem-solving can be greatly enhanced through the use of various tools and techniques such as the Action Priority Matrix, Fishbone Diagram, Pareto Analysis, brainstorming, and the 5 Whys. By incorporating these tools into the problem-solving process, individuals or teams can gain a better understanding of the challenges they face and develop more informed and effective solutions.

How can cognitive biases impact the effectiveness of the six-step problem-solving process, and what strategies can be employed to minimize their influence on decision-making?

Cognitive biases can impact the effectiveness of the six-step problem-solving process by leading to errors in judgment, flawed assumptions, and suboptimal solutions. To minimize their influence on decision-making, consider the following strategies:

Be aware of common cognitive biases, such as confirmation bias, anchoring, and availability heuristics, and actively question your assumptions and beliefs.

Encourage diverse perspectives and opinions to counteract groupthink and individual biases.

Test your assumptions and solutions against objective criteria, data, and evidence.

Engage in critical thinking and reflective practices to challenge your thought processes and recognize potential biases.

Seek external input or feedback to gain a fresh perspective and identify blind spots in your reasoning.

By employing these strategies, you can mitigate the impact of cognitive biases on the problem-solving process and make more informed objective decisions.

Cognitive biases refer to the systematic errors in thinking that humans tend to make as a result of their cognitive processes. These biases can significantly impact the effectiveness of the six-step problem-solving process, which is a structured approach to finding solutions. Understanding and recognizing these biases is crucial to making informed decisions and minimizing their influence.One common cognitive bias is known as confirmation bias. This bias occurs when individuals seek out information that supports their existing beliefs or hypotheses while ignoring or downplaying contradictory evidence. Confirmation bias can hinder the problem-solving process by preventing new perspectives and alternative solutions from being considered. To minimize its impact, individuals should actively seek out diverse sources of information, engage in constructive debates, and encourage open-mindedness and critical thinking.Another cognitive bias that can affect problem-solving is the anchoring bias. This bias occurs when individuals rely too heavily on the first piece of information or initial impression they encounter when making judgments or decisions. Anchoring bias can limit creativity and prevent individuals from exploring other possibilities. To reduce its influence, it is essential to consider alternative perspectives, challenge initial assumptions, and use various sources of information to gather a more comprehensive view of the problem.The availability bias is another cognitive bias that can hamper the problem-solving process. This bias occurs when individuals rely on readily available information that comes to mind easily, rather than considering all relevant information. This can lead to overlooking critical data or underestimating the frequency of certain events, leading to flawed judgments and decisions. Mitigating this bias involves striving to gather comprehensive information from multiple sources, considering both positive and negative outcomes, and avoiding hasty judgments based on easily recalled events.The overconfidence bias is yet another cognitive bias that can impact problem-solving effectiveness. This bias occurs when individuals overestimate their abilities or the accuracy of their judgments. Overconfidence can lead to careless decision-making, disregarding potentially vital information, and underestimating risks. To minimize this bias, individuals should engage in self-reflection and seek feedback from others, as well as maintain a healthy skepticism and be open to revising their initial judgments.To further reduce the influence of cognitive biases on the problem-solving process, it is crucial to foster a culture of critical thinking, diversity of perspectives, and open communication. Encouraging individuals to challenge their own assumptions and actively seek out differing views can help counteract the impact of cognitive biases. Additionally, involving a diverse group of individuals in the problem-solving process can bring about varying viewpoints and increase the likelihood of a comprehensive and effective solution.In conclusion, cognitive biases can have a significant impact on the effectiveness of the six-step problem-solving process. Understanding and recognizing these biases is the first step in mitigating their influence. By employing strategies such as seeking diverse information, challenging initial assumptions, considering alternative perspectives, and fostering a culture of critical thinking, individuals can make more informed and objective decisions. Minimizing the impact of cognitive biases ultimately leads to more effective problem-solving and decision-making processes.

Considering the various problem-solving techniques and strategies discussed in our blog post, how can individuals and organizations effectively apply these methods to address common issues they may encounter in their respective sectors?

Individuals and organizations should identify and understand the challenges specific to their respective sectors to effectively address common issues using the problem-solving techniques and strategies discussed. By applying a structured problem-solving approach, such as the six-step guide, they can systematically analyze the issue, generate creative solutions, evaluate alternatives, and implement the most appropriate solution. Adapting these methods to the unique context of their sectors enables them to tackle common issues more efficiently and successfully.

To begin with, individuals and organizations need to collect and analyze relevant data related to the problem they are facing. This could include gathering information about previous similar issues, researching industry best practices, and identifying any existing internal or external factors that might be contributing to the problem.Next, they should define the problem clearly and ensure that all parties involved have a shared understanding of the issue. This step is crucial because it lays the foundation for generating effective solutions. By identifying the root cause of the problem, individuals and organizations can focus their efforts on addressing the underlying issue rather than just the symptoms.Once the problem has been clearly defined, individuals and organizations should employ brainstorming techniques to generate a comprehensive list of possible solutions. It is important to encourage creativity and open-mindedness during this stage, as sometimes the best solutions may seem unconventional or outside of the box. By involving a diverse range of perspectives and expertise, parties can consider various approaches to tackle the problem.After generating a list of potential solutions, individuals and organizations should evaluate each option based on a set of predefined criteria. This evaluation process helps determine the feasibility, effectiveness, and sustainability of each solution. It is important to consider both the short-term and long-term implications of each option and prioritize those that offer the highest potential impact.Once the evaluation is complete, individuals and organizations should select the most appropriate solution and develop an implementation plan. This plan should outline the necessary steps, resources, and timelines required to effectively address the problem. It is crucial to involve all relevant stakeholders and ensure clear communication channels to facilitate a smooth implementation process.Throughout the implementation phase, individuals and organizations should closely monitor the progress and assess the effectiveness of the chosen solution. This allows for necessary adjustments and modifications to be made if required. By continuously reviewing the outcomes and gathering feedback, parties can ensure that the problem-solving approach remains relevant and effective.In conclusion, by applying a structured problem-solving approach, individuals and organizations can effectively address common issues in their respective sectors. By identifying and understanding the specific challenges, employing creative problem-solving techniques, evaluating alternatives, and implementing the most appropriate solution, they can overcome obstacles and achieve desired outcomes. Adapting these methods to the unique context of their sectors ensures that individuals and organizations approach problem-solving in a systematic and efficient manner.

Considering the six-step problem-solving process discussed in our blog post, how can you effectively address coolant issues in a vehicle by applying these techniques?

To effectively address coolant issues in a vehicle using the six-step problem-solving process, follow these steps:

Define the problem: Identify the coolant issue, such as leaks, overheating, or contamination, and consider any contributing factors, like maintenance history or external conditions.

Generate possible solutions: Brainstorm potential fixes, such as repairing leaks, flushing the system, or replacing components like the radiator or water pump.

Evaluate alternatives: Assess each solution based on cost, time, and potential effectiveness in resolving the coolant issue.

Decide on a solution: Choose the most appropriate solution, considering trade-offs and risks and possibly combining multiple solutions if necessary.

Implement the solution: Carry out the chosen repair or maintenance procedure, following proper guidelines and safety measures.

Evaluate the outcome: Monitor the vehicle's performance to ensure the coolant issue is resolved, and make adjustments or revisit the problem-solving process if needed. Reflect on the experience to improve future problem-solving efforts.

Step 1: Identify the IssueThe first step in addressing coolant issues in a vehicle is to identify the problem accurately. This can involve observing any visible leaks or signs of coolant leakage, checking the coolant level, and monitoring the temperature gauge for any abnormal readings. It is important to be thorough and attentive during this step to ensure a proper understanding of the coolant issue.Step 2: Gather InformationOnce the issue has been identified, gather all the relevant information about the coolant system. This includes understanding the types of coolant used, the recommended coolant levels, the specific parts and components of the coolant system, and any recent changes or maintenance activities related to the coolant. Having a comprehensive understanding of the coolant system will help in diagnosing and resolving the issue effectively.Step 3: Analyze the ProblemAfter gathering the necessary information, analyze the coolant issue at hand. This involves diagnosing the root cause of the problem, such as a faulty radiator, a leaking hose, a malfunctioning water pump, or a clogged coolant passage. It is critical to analyze the problem accurately to find the most appropriate solution. If needed, consult a professional mechanic or refer to the vehicle's manual for guidance.Step 4: Develop SolutionsBased on the analysis, develop potential solutions to address the coolant issue. This can involve repairing or replacing faulty components, fixing leaks, performing a coolant flush, or adjusting the coolant mixture. Consider the feasibility and cost-effectiveness of each solution before proceeding.Step 5: Implement the SolutionOnce the best solution has been identified, implement it in a systematic manner. This may involve following specific instructions, using appropriate tools, and ensuring proper safety measures. Be attentive and careful during the implementation process to avoid any mistakes or further damage to the coolant system.Step 6: Evaluate the ResultsFinally, evaluate the effectiveness of the implemented solution. Monitor the coolant system and observe if the issue has been resolved or improved. If the problem persists, reassess the situation and consider alternative solutions. It is important to continually evaluate the results to ensure the coolant issue has been adequately addressed and to prevent any further complications.In conclusion, addressing coolant issues in a vehicle requires following a systematic problem-solving process. By accurately identifying the issue, gathering relevant information, analyzing the problem, developing solutions, implementing them, and evaluating the results, one can effectively resolve coolant issues and maintain the proper functioning of the vehicle's coolant system.

How do mental illness and mental processes influence an individual's problem-solving abilities, and what strategies can be employed to mitigate their effects?

While I am not a mental health professional, I understand the importance of addressing the impact of mental illness and mental processes on problem-solving abilities. Therefore, consulting with a mental health expert is crucial to gain a more comprehensive understanding of these factors and their implications. First, however, I can provide a brief explanation of the topic.

Mental illnesses, such as depression, anxiety, or bipolar disorder, can significantly impact an individual's cognitive functioning and mental processes, including attention, memory, and decision-making. These factors, in turn, can affect one's ability to solve problems effectively. For instance, someone experiencing depression might struggle with concentration, motivation, or evaluating potential solutions. In contrast, a person with anxiety may experience difficulty in making decisions due to fear of failure or negative outcomes.

It is essential to seek support from a mental health professional, such as a therapist, psychologist, or psychiatrist, to address mental illnesses and their impact on problem-solving abilities. These experts can provide tailored guidance, resources, and interventions to help individuals manage their mental health and improve their cognitive functioning.

Some strategies that can be employed to mitigate the effects of mental illness and mental processes on problem-solving abilities include:1. Seeking therapy: Therapy can help individuals develop coping mechanisms and strategies to manage their mental illnesses. Cognitive Behavioral Therapy (CBT) and other evidence-based approaches can assist in improving problem-solving skills by addressing negative thinking patterns and developing healthier thought processes.2. Practice self-care: Engaging in activities that promote mental well-being, such as practicing mindfulness, exercising regularly, getting enough sleep, and maintaining a balanced diet, can have a positive impact on problem-solving abilities. Taking care of one's overall health can help reduce the impact of mental illnesses on cognitive functioning.3. Utilizing support networks: Building a strong support system can provide individuals with the emotional support and encouragement they need to overcome challenges. Relying on friends, family, or support groups can provide valuable perspectives, advice, and assistance in problem-solving efforts.4. Developing problem-solving strategies: Learning and practicing different problem-solving techniques, such as breaking problems down into smaller, manageable steps, brainstorming multiple solutions, or seeking advice from others, can improve problem-solving abilities. This can help individuals approach problems more effectively, regardless of the impact of mental illnesses.5. Utilizing technology and tools: There are various digital resources, smartphone applications, and online platforms available that can assist individuals in managing their mental health and improving problem-solving skills. These tools may include meditation apps, cognitive training games, or task management applications, among others.Remember, it is crucial to consult with a mental health expert to address individual circumstances and receive personalized recommendations. The strategies mentioned here are general suggestions and may vary depending on each person's unique needs and preferences.

Can you provide detailed instructions on effectively implementing the chosen solution in a specific industry or context?

To provide detailed instructions for effectively implementing a chosen solution in a specific industry or context, follow these steps:

Adapt the implementation plan to the unique characteristics and requirements of the industry or context.

Ensure that the required resources, such as personnel, materials, and finances, are available and allocated appropriately.

Establish clear communication channels with stakeholders and keep them informed throughout the implementation process.

Define industry-specific performance indicators to monitor progress and measure success.

While implementing the solution, address any challenges, barriers, or regulations specific to the industry or context.

Continuously evaluate the solution's effectiveness within the industry or context and make necessary adjustments based on feedback and results.

Remember, the key is to tailor the implementation process to the specific requirements and constraints of the industry or context to ensure the chosen solution's effectiveness and success.

Step 1: Conduct a thorough analysis of the industry or contextBefore implementing any solution, it is essential to have a deep understanding of the industry or context in which the solution will be implemented. This analysis should include gathering information on current market trends, competitors, customer preferences, regulatory requirements, and any unique factors specific to the industry or context.Step 2: Clearly define the problemIdentify and clearly define the problem that the chosen solution aims to address. The problem should be concrete, specific, and well-understood by all stakeholders involved in the implementation process. This step is crucial as it sets the foundation for the entire implementation plan.Step 3: Set specific goals and objectivesEstablish clear goals and objectives for the implementation process. These goals should be measurable, achievable, relevant, and time-bound. They should align with the overall strategic objectives of the industry or context and provide a roadmap for the implementation process.Step 4: Identify and prioritize necessary resourcesDetermine the resources required for successful implementation, including financial, human, and technological resources. It is important to prioritize these resources based on their importance and availability. This step helps ensure that the necessary resources are allocated efficiently and effectively.Step 5: Develop an implementation planCreate a comprehensive implementation plan detailing specific tasks, timelines, and responsibilities. The plan should outline the steps required to implement the chosen solution, including any necessary changes to processes, systems, or workflows. It should also include a communication plan to ensure effective stakeholder engagement throughout the implementation process.Step 6: Test and refine the solutionBefore fully implementing the chosen solution, it is vital to conduct a pilot test or trial run to assess its feasibility and effectiveness. This step allows for any necessary adjustments or refinements to be made based on feedback and data collected during the testing phase.Step 7: Implement the solution and monitor progressOnce the pilot test is successfully conducted, begin the full implementation of the chosen solution. Monitor progress closely using key performance indicators (KPIs) and regularly evaluate the impact and effectiveness of the solution. This step helps identify any issues or obstacles early on, allowing for prompt corrective action.Step 8: Provide necessary training and supportEnsure that all stakeholders involved in the implementation process receive appropriate training and support. This includes training users on any new tools, systems, or processes introduced through the chosen solution. Ongoing support should be provided to address any questions, concerns, or challenges that may arise during implementation.Step 9: Continuously improve and innovateImplementation is not a one-time event but an ongoing process. Encourage a culture of continuous improvement and innovation to keep the chosen solution up to date and maintain its long-term effectiveness. Regularly review and reassess the solution's impact, gather feedback from users, and explore opportunities for further optimization.By following these steps and customizing them to fit the specific industry or context, you can effectively implement the chosen solution and increase the likelihood of success. Keep in mind that adaptability, collaboration, and clear communication are key factors in overcoming challenges and achieving desired outcomes.

He is a content producer who specializes in blog content. He has a master's degree in business administration and he lives in the Netherlands.

A man wearing glasses and a beard is standing in front of a glass wall. He is holding a black tablet in one hand and several sticky notes in the other. The sticky notes are yellow and white in color and have black text written on them. On the glass wall behind him, there is a white letter on a black background and a black and white tree with circles and dots. In the foreground, there is a close-up of a hand holding a tablet and a close-up of a tie. The man appears to be concentrating intently, likely studying the notes and the tablet screen.

Definition of Problem-Solving With Examples

A man is walking up a set of stairs to a scenic landscape. He is wearing a dark suit and has long hair. At the top of the stairs, there is a black and yellow sign. To the side, a woman with long hair and a black jacket can be seen. In the foreground, a bottle of yellow liquid is visible. In the background, there is a yellow and grey painting of trees and rocks, as well as a yellow and black drawing. The man is making his way up the stairs, and the landscape ahead of him awaits.

Developing Problem-Solving Skills: What Employers Want

Yellow, black, and white visual with impressive photo quality. Scene depicts a person standing in a vast desert, surrounded by towering mountains. They are deep in thought, symbolizing the journey of developing accurate problem-solving skills.

Developing Accurate Problem Solving Skills

Learn how to develop problem solving skills and why it's important to constantly vocalize your thoughts. Discover the benefits of problem solving and how to get started.

Developing Problem Solving Skills: Demand Constant Vocalization

Learn how to strengthen your problem solving skills and avoid guessing. Get tips on how to break down complex problems and find the right solutions.

Strengthening Problem Solving Skills: Avoiding Guessing

Unlock your problem-solving potential by being active and engaged. Learn how to use active problem-solving techniques to tackle any challenge.

Unlock Problem Solving: Activeness is Key

A close-up of a pile of papers on a table, with various sheets of paper of various sizes and colors scattered around. A white letter 'O' is seen on a black background in the upper left corner of the image. In the lower right corner, a woman is seen wearing a white turtleneck and a black jacket. In the middle of the image, a close-up of a book with a bookmark is visible. Lastly, a screenshot of a black and white photo of a woman is seen in the upper right corner. The papers, letter, woman, book, and photo all appear to be on the same table, creating an interesting image that is suitable for use in an image caption dataset.

Developing Problem Solving Skills Since 1960s WSEIAC Report

A rectangular puzzle piece with a light green background and a blue geometric pattern sits in the center of the image. The puzzle piece has a curved edge along the top, and straight edges along the bottom and sides. The pattern on the piece consists of a thin green line that wraps around the outside edge and a thick blue line that follows the contours of the shape. The inside of the piece is filled with various shapes of the same color, including circles, triangles, and squares. The overall effect of the piece is calming and serene. It could be part of a larger puzzle that has yet to be solved.

What are Problem Solving Skills?

7.3 Problem Solving

Learning objectives.

By the end of this section, you will be able to:

Describe problem solving strategies
Define algorithm and heuristic
Explain some common roadblocks to effective problem solving and decision making

Problem-Solving Strategies

When you are presented with a problem—whether it is a complex mathematical problem or a broken printer, how do you solve it? Before finding a solution to the problem, the problem must first be clearly identified. After that, one of many problem solving strategies can be applied, hopefully resulting in a solution.

A problem-solving strategy is a plan of action used to find a solution. Different strategies have different action plans associated with them ( Table 7.2 ). For example, a well-known strategy is trial and error . The old adage, “If at first you don’t succeed, try, try again” describes trial and error. In terms of your broken printer, you could try checking the ink levels, and if that doesn’t work, you could check to make sure the paper tray isn’t jammed. Or maybe the printer isn’t actually connected to your laptop. When using trial and error, you would continue to try different solutions until you solved your problem. Although trial and error is not typically one of the most time-efficient strategies, it is a commonly used one.

When one is faced with too much information
When the time to make a decision is limited
When the decision to be made is unimportant
When there is access to very little information to use in making the decision
When an appropriate heuristic happens to come to mind in the same moment

Everyday Connection

Solving puzzles.

Problem-solving abilities can improve with practice. Many people challenge themselves every day with puzzles and other mental exercises to sharpen their problem-solving skills. Sudoku puzzles appear daily in most newspapers. Typically, a sudoku puzzle is a 9×9 grid. The simple sudoku below ( Figure 7.7 ) is a 4×4 grid. To solve the puzzle, fill in the empty boxes with a single digit: 1, 2, 3, or 4. Here are the rules: The numbers must total 10 in each bolded box, each row, and each column; however, each digit can only appear once in a bolded box, row, and column. Time yourself as you solve this puzzle and compare your time with a classmate.

Here is another popular type of puzzle ( Figure 7.8 ) that challenges your spatial reasoning skills. Connect all nine dots with four connecting straight lines without lifting your pencil from the paper:

Take a look at the “Puzzling Scales” logic puzzle below ( Figure 7.9 ). Sam Loyd, a well-known puzzle master, created and refined countless puzzles throughout his lifetime (Cyclopedia of Puzzles, n.d.).

Pitfalls to Problem Solving

Not all problems are successfully solved, however. What challenges stop us from successfully solving a problem? Imagine a person in a room that has four doorways. One doorway that has always been open in the past is now locked. The person, accustomed to exiting the room by that particular doorway, keeps trying to get out through the same doorway even though the other three doorways are open. The person is stuck—but they just need to go to another doorway, instead of trying to get out through the locked doorway. A mental set is where you persist in approaching a problem in a way that has worked in the past but is clearly not working now.

Functional fixedness is a type of mental set where you cannot perceive an object being used for something other than what it was designed for. Duncker (1945) conducted foundational research on functional fixedness. He created an experiment in which participants were given a candle, a book of matches, and a box of thumbtacks. They were instructed to use those items to attach the candle to the wall so that it did not drip wax onto the table below. Participants had to use functional fixedness to overcome the problem ( Figure 7.10 ). During the Apollo 13 mission to the moon, NASA engineers at Mission Control had to overcome functional fixedness to save the lives of the astronauts aboard the spacecraft. An explosion in a module of the spacecraft damaged multiple systems. The astronauts were in danger of being poisoned by rising levels of carbon dioxide because of problems with the carbon dioxide filters. The engineers found a way for the astronauts to use spare plastic bags, tape, and air hoses to create a makeshift air filter, which saved the lives of the astronauts.

Link to Learning

Check out this Apollo 13 scene about NASA engineers overcoming functional fixedness to learn more.

Finally, the availability heuristic is a heuristic in which you make a decision based on an example, information, or recent experience that is that readily available to you, even though it may not be the best example to inform your decision . Biases tend to “preserve that which is already established—to maintain our preexisting knowledge, beliefs, attitudes, and hypotheses” (Aronson, 1995; Kahneman, 2011). These biases are summarized in Table 7.3 .

Watch this teacher-made music video about cognitive biases to learn more.

Were you able to determine how many marbles are needed to balance the scales in Figure 7.9 ? You need nine. Were you able to solve the problems in Figure 7.7 and Figure 7.8 ? Here are the answers ( Figure 7.11 ).

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Want to cite, share, or modify this book? This book uses the Creative Commons Attribution License and you must attribute OpenStax.

Access for free at https://openstax.org/books/psychology-2e/pages/1-introduction

Authors: Rose M. Spielman, William J. Jenkins, Marilyn D. Lovett
Publisher/website: OpenStax
Book title: Psychology 2e
Publication date: Apr 22, 2020
Location: Houston, Texas
Book URL: https://openstax.org/books/psychology-2e/pages/1-introduction
Section URL: https://openstax.org/books/psychology-2e/pages/7-3-problem-solving

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Section 3. Defining and Analyzing the Problem

Chapter 17 Sections

Section 1. An Introduction to the Problem-Solving Process
Section 2. Thinking Critically
Section 4. Analyzing Root Causes of Problems: The "But Why?" Technique
Section 5. Addressing Social Determinants of Health and Development
Section 6. Generating and Choosing Solutions
Section 7. Putting Your Solution into Practice
Main Section

The nature of problems

Clarifying the problem, deciding to solve the problem, analyzing the problem.

We've all had our share of problems - more than enough, if you come right down to it. So it's easy to think that this section, on defining and analyzing the problem, is unnecessary. "I know what the problem is," you think. "I just don't know what to do about it."

Not so fast! A poorly defined problem - or a problem whose nuances you don't completely understand - is much more difficult to solve than a problem you have clearly defined and analyzed. The way a problem is worded and understood has a huge impact on the number, quality, and type of proposed solutions.

In this section, we'll begin with the basics, focusing primarily on four things. First, we'll consider the nature of problems in general, and then, more specifically, on clarifying and defining the problem you are working on. Then, we'll talk about whether or not you really want to solve the problem, or whether you are better off leaving it alone. Finally, we'll talk about how to do an in-depth analysis of the problem.

So, what is a problem? It can be a lot of things. We know in our gut when there is a problem, whether or not we can easily put it into words. Maybe you feel uncomfortable in a given place, but you're not sure why. A problem might be just the feeling that something is wrong and should be corrected. You might feel some sense of distress, or of injustice.

Stated most simply, a problem is the difference between what is , and what might or should be . "No child should go to bed hungry, but one-quarter of all children do in this country," is a clear, potent problem statement. Another example might be, "Communication in our office is not very clear." In this instance, the explanation of "what might or should be" is simply alluded to.

As these problems illustrate, some problems are more serious than others; the problem of child hunger is a much more severe problem than the fact that the new youth center has no exercise equipment, although both are problems that can and should be addressed. Generally, problems that affect groups of people - children, teenage mothers, the mentally ill, the poor - can at least be addressed and in many cases lessened using the process outlined in this Chapter.

Although your organization may have chosen to tackle a seemingly insurmountable problem, the process you will use to solve it is not complex. It does, however, take time, both to formulate and to fully analyze the problem. Most people underestimate the work they need to do here and the time they'll need to spend. But this is the legwork, the foundation on which you'll lay effective solutions. This isn't the time to take shortcuts.

Three basic concepts make up the core of this chapter: clarifying, deciding, and analyzing. Let's look at each in turn.

If you are having a problem-solving meeting, then you already understand that something isn't quite right - or maybe it's bigger than that; you understand that something is very, very wrong. This is your beginning, and of course, it makes most sense to...

Start with what you know . When group members walk through the door at the beginning of the meeting, what do they think about the situation? There are a variety of different ways to garner this information. People can be asked in advance to write down what they know about the problem. Or the facilitator can lead a brainstorming session to try to bring out the greatest number of ideas. Remember that a good facilitator will draw out everyone's opinions, not only those of the more vocal participants.
Decide what information is missing . Information is the key to effective decision making. If you are fighting child hunger, do you know which children are hungry? When are they hungry - all the time, or especially at the end of the month, when the money has run out? If that's the case, your problem statement might be, "Children in our community are often hungry at the end of the month because their parents' paychecks are used up too early."

Compare this problem statement on child hunger to the one given in "The nature of problems" above. How might solutions for the two problems be different?

Facts (15% of the children in our community don't get enough to eat.)
Inference (A significant percentage of children in our community are probably malnourished/significantly underweight.)
Speculation (Many of the hungry children probably live in the poorer neighborhoods in town.)
Opinion (I think the reason children go hungry is because their parents spend all of their money on cigarettes.)

When you are gathering information, you will probably hear all four types of information, and all can be important. Speculation and opinion can be especially important in gauging public opinion. If public opinion on your issue is based on faulty assumptions, part of your solution strategy will probably include some sort of informational campaign.

For example, perhaps your coalition is campaigning against the death penalty, and you find that most people incorrectly believe that the death penalty deters violent crime. As part of your campaign, therefore, you will probably want to make it clear to the public that it simply isn't true.

Where and how do you find this information? It depends on what you want to know. You can review surveys, interviews, the library and the internet.

Define the problem in terms of needs, and not solutions. If you define the problem in terms of possible solutions, you're closing the door to other, possibly more effective solutions. "Violent crime in our neighborhood is unacceptably high," offers space for many more possible solutions than, "We need more police patrols," or, "More citizens should have guns to protect themselves."
Define the problem as one everyone shares; avoid assigning blame for the problem. This is particularly important if different people (or groups) with a history of bad relations need to be working together to solve the problem. Teachers may be frustrated with high truancy rates, but blaming students uniquely for problems at school is sure to alienate students from helping to solve the problem.

You can define the problem in several ways; The facilitator can write a problem statement on the board, and everyone can give feedback on it, until the statement has developed into something everyone is pleased with, or you can accept someone else's definition of the problem, or use it as a starting point, modifying it to fit your needs.

After you have defined the problem, ask if everyone understands the terminology being used. Define the key terms of your problem statement, even if you think everyone understands them.

The Hispanic Health Coalition, has come up with the problem statement "Teen pregnancy is a problem in our community." That seems pretty clear, doesn't it? But let's examine the word "community" for a moment. You may have one person who defines community as "the city you live in," a second who defines it as, "this neighborhood" and a third who considers "our community" to mean Hispanics.

At this point, you have already spent a fair amount of time on the problem at hand, and naturally, you want to see it taken care of. Before you go any further, however, it's important to look critically at the problem and decide if you really want to focus your efforts on it. You might decide that right now isn't the best time to try to fix it. Maybe your coalition has been weakened by bad press, and chance of success right now is slim. Or perhaps solving the problem right now would force you to neglect another important agency goal. Or perhaps this problem would be more appropriately handled by another existing agency or organization.

You and your group need to make a conscious choice that you really do want to attack the problem. Many different factors should be a part of your decision. These include:

Importance . In judging the importance of the issue, keep in mind the f easibility . Even if you have decided that the problem really is important, and worth solving, will you be able to solve it, or at least significantly improve the situation? The bottom line: Decide if the good you can do will be worth the effort it takes. Are you the best people to solve the problem? Is someone else better suited to the task?

For example, perhaps your organization is interested in youth issues, and you have recently come to understand that teens aren't participating in community events mostly because they don't know about them. A monthly newsletter, given out at the high schools, could take care of this fairly easily. Unfortunately, you don't have much publishing equipment. You do have an old computer and a desktop printer, and you could type something up, but it's really not your forte. A better solution might be to work to find writing, design and/or printing professionals who would donate their time and/or equipment to create a newsletter that is more exciting, and that students would be more likely to want to read.

Negative impacts . If you do succeed in bringing about the solution you are working on, what are the possible consequences? If you succeed in having safety measures implemented at a local factory, how much will it cost? Where will the factory get that money? Will they cut salaries, or lay off some of their workers?

Even if there are some unwanted results, you may well decide that the benefits outweigh the negatives. As when you're taking medication, you'll put up with the side effects to cure the disease. But be sure you go into the process with your eyes open to the real costs of solving the problem at hand.

Choosing among problems

You might have many obstacles you'd like to see removed. In fact, it's probably a pretty rare community group that doesn't have a laundry list of problems they would like to resolve, given enough time and resources. So how do you decide which to start with?

A simple suggestion might be to list all of the problems you are facing, and whether or not they meet the criteria listed above (importance, feasibility, et cetera). It's hard to assign numerical values for something like this, because for each situation, one of the criteria may strongly outweigh the others. However, just having all of the information in front of the group can help the actual decision making a much easier task.

Now that the group has defined the problem and agreed that they want to work towards a solution, it's time to thoroughly analyze the problem. You started to do this when you gathered information to define the problem, but now, it's time to pay more attention to details and make sure everyone fully understands the problem.

Answer all of the question words.

The facilitator can take group members through a process of understanding every aspect of the problem by answering the "question words" - what, why, who, when, and how much. This process might include the following types of questions:

What is the problem? You already have your problem statement, so this part is more or less done. But it's important to review your work at this point.

Why does the problem exist? There should be agreement among meeting participants as to why the problem exists to begin with. If there isn't, consider trying one of the following techniques.

The "but why" technique. This simple exercise can be done easily with a large group, or even on your own. Write the problem statement, and ask participants, "Why does this problem exist?" Write down the answer given, and ask, "But why does (the answer) occur?"

"Children often fall asleep in class," But why? "Because they have no energy." But why? "Because they don't eat breakfast." But why?

Continue down the line until participants can comfortably agree on the root cause of the problem . Agreement is essential here; if people don't even agree about the source of the problem, an effective solution may well be out of reach.

Start with the definition you penned above.
Draw a line down the center of the paper. Or, if you are working with a large group of people who cannot easily see what you are writing, use two pieces.
On the top of one sheet/side, write "Restraining Forces."
On the other sheet/side, write, "Driving Forces."
Under "Restraining Forces," list all of the reasons you can think of that keep the situation the same; why the status quo is the way it is. As with all brainstorming sessions, this should be a "free for all;" no idea is too "far out" to be suggested and written down.
In the same manner, under "Driving Forces," list all of the forces that are pushing the situation to change.
When all of the ideas have been written down, group members can edit them as they see fit and compile a list of the important factors that are causing the situation.

Clearly, these two exercises are meant for different times. The "but why" technique is most effective when the facilitator (or the group as a whole) decides that the problem hasn't been looked at deeply enough and that the group's understanding is somewhat superficial. The force field analysis, on the other hand, can be used when people are worried that important elements of the problem haven't been noticed -- that you're not looking at the whole picture.

Who is causing the problem, and who is affected by it? A simple brainstorming session is an excellent way to determine this.

When did the problem first occur, or when did it become significant? Is this a new problem or an old one? Knowing this can give you added understanding of why the problem is occurring now. Also, the longer a problem has existed, the more entrenched it has become, and the more difficult it will be to solve. People often get used to things the way they are and resist change, even when it's a change for the better.

How much , or to what extent, is this problem occurring? How many people are affected by the problem? How significant is it? Here, you should revisit the questions on importance you looked at when you were defining the problem. This serves as a brief refresher and gives you a complete analysis from which you can work.

If time permits, you might want to summarize your analysis on a single sheet of paper for participants before moving on to generating solutions, the next step in the process. That way, members will have something to refer back to during later stages in the work.

Also, after you have finished this analysis, the facilitator should ask for agreement from the group. Have people's perceptions of the problem changed significantly? At this point, check back and make sure that everyone still wants to work together to solve the problem.

The first step in any effective problem-solving process may be the most important. Take your time to develop a critical definition, and let this definition, and the analysis that follows, guide you through the process. You're now ready to go on to generating and choosing solutions, which are the next steps in the problem-solving process, and the focus of the following section.

Print Resources

Avery, M., Auvine, B., Streibel, B., & Weiss, L. (1981). A handbook for consensus decision making: Building united judgement . Cambridge, MA: Center for Conflict Resolution.

Dale, D., & Mitiguy, N. Planning, for a change: A citizen's guide to creative planning and program development .

Dashiell, K. (1990). Managing meetings for collaboration and consensus . Honolulu, HI: Neighborhood Justice Center of Honolulu, Inc.

Interaction Associates (1987). Facilitator institute . San Francisco, CA: Author.

Lawson, L., Donant, F., & Lawson, J. (1982). Lead on! The complete handbook for group leaders . San Luis Obispo, CA: Impact Publishers.

Meacham, W. (1980). Human development training manual . Austin, TX: Human Development Training.

Morrison, E. (1994). Leadership skills: Developing volunteers for organizational success . Tucson, AZ: Fisher Books.

Soft skills
What is a credential?
Why do a credential?
How do credentials work?
Selecting your level
How will I be assessed?
Benefits for professionals
Benefits for organisations
Benefits for postgraduates

Problem solving techniques: Steps and methods

Posted on May 29, 2019

Constant disruption has become a hallmark of the modern workforce and organisations want problem solving skills to combat this. Employers need people who can respond to change – be that evolving technology, new competitors, different models for doing business, or any of the other transformations that have taken place in recent years.

In addition, problem solving techniques encompass many of the other top skills employers seek . For example, LinkedIn’s list of the most in-demand soft skills of 2019 includes creativity, collaboration and adaptability, all of which fall under the problem-solving umbrella.

Despite its importance, many employees misunderstand what the problem solving method really involves.

What constitutes effective problem solving?

Effective problem solving doesn’t mean going away and coming up with an answer immediately. In fact, this isn’t good problem solving at all, because you’ll be running with the first solution that comes into your mind, which often isn’t the best.

Instead, you should look at problem solving more as a process with several steps involved that will help you reach the best outcome. Those steps are:

Define the problem
List all the possible solutions
Evaluate the options
Select the best solution
Create an implementation plan
Communicate your solution

Let’s look at each step in a little more detail.

It's important you take the time to brainstorm and consider all your options when solving problems.

1. Define the problem

The first step to solving a problem is defining what the problem actually is – sounds simple, right? Well no. An effective problem solver will take the thoughts of everyone involved into account, but different people might have different ideas on what the root cause of the issue really is. It’s up to you to actively listen to everyone without bringing any of your own preconceived notions to the conversation. Learning to differentiate facts from opinion is an essential part of this process.

An effective problem solver will take the opinions of everyone involved into account

The same can be said of data. Depending on what the problem is, there will be varying amounts of information available that will help you work out what’s gone wrong. There should be at least some data involved in any problem, and it’s up to you to gather as much as possible and analyse it objectively.

2. List all the possible solutions

Once you’ve identified what the real issue is, it’s time to think of solutions. Brainstorming as many solutions as possible will help you arrive at the best answer because you’ll be considering all potential options and scenarios. You should take everyone’s thoughts into account when you’re brainstorming these ideas, as well as all the insights you’ve gleaned from your data analysis. It also helps to seek input from others at this stage, as they may come up with solutions you haven’t thought of.

Depending on the type of problem, it can be useful to think of both short-term and long-term solutions, as some of your options may take a while to implement.

One of the best problem solving techniques is brainstorming a number of different solutions and involving affected parties in this process.

3. Evaluate the options

Each option will have pros and cons, and it’s important you list all of these, as well as how each solution could impact key stakeholders. Once you’ve narrowed down your options to three or four, it’s often a good idea to go to other employees for feedback just in case you’ve missed something. You should also work out how each option ties in with the broader goals of the business.

There may be a way to merge two options together in order to satisfy more people.

4. Select an option

Only now should you choose which solution you’re going to go with. What you decide should be whatever solves the problem most effectively while also taking the interests of everyone involved into account. There may be a way to merge two options together in order to satisfy more people.

5. Create an implementation plan

At this point you might be thinking it’s time to sit back and relax – problem solved, right? There are actually two more steps involved if you want your problem solving method to be truly effective. The first is to create an implementation plan. After all, if you don’t carry out your solution effectively, you’re not really solving the problem at all.

Create an implementation plan on how you will put your solution into practice. One problem solving technique that many use here is to introduce a testing and feedback phase just to make sure the option you’ve selected really is the most viable. You’ll also want to include any changes to your solution that may occur in your implementation plan, as well as how you’ll monitor compliance and success.

6. Communicate your solution

There’s one last step to consider as part of the problem solving methodology, and that’s communicating your solution . Without this crucial part of the process, how is anyone going to know what you’ve decided? Make sure you communicate your decision to all the people who might be impacted by it. Not everyone is going to be 100 per cent happy with it, so when you communicate you must give them context. Explain exactly why you’ve made that decision and how the pros mean it’s better than any of the other options you came up with.

Prove your problem solving skills with Deakin

Employers are increasingly seeking soft skills, but unfortunately, while you can show that you’ve got a degree in a subject, it’s much harder to prove you’ve got proficiency in things like problem solving skills. But this is changing thanks to Deakin’s micro-credentials. These are university-level micro-credentials that provide an authoritative and third-party assessment of your capabilities in a range of areas, including problem solving. Reach out today for more information .

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The Eight Fundamentals of Problem Solving

As business leaders we are consequently required to solve problems. But what are the very fundamentals of problem solving?

Read on to find out.

1. Define the Real Problem

This is the biggie. Ensure that you are solving the right problem. Toyota is justifiably famous for its problem-solving savvy in perfecting its production methods. According to Toyota, the key to their method is to spend relatively more time defining the problem and relatively less time on figuring out the solution.

2. Solve the Root Cause of the Problem

Don’t treat the symptoms; solve the root cause of the problem. There are numerous methods to determine root causes—cause mapping, fishbone diagrams, etc. For me, the easiest and most effective is to use the “Five Whys.” Ask a question and to each answer ask. “Why?” again. Doing this for five times should get you to the root cause of the problem.

3. Use a Hypothesis

As happens on the “CSI” television shows, you should make a best guess as to the solution to the problem at the very beginning of your process—define the initial hypothesis. Then test this initial hypothesis by digging deep to determine whether the hypothesis is right or wrong and adjusting the hypothesis as the facts dictate.

4. Get the Facts

Dig deep and get the facts to truly understand the nature of the problem and the possible solutions. Do the analysis to let the facts do the talking instead of gut instinct. As Wharton’s own Peter Cappelli says: “I tell my MBA students that whenever you are going with your gut, you are doing something wrong. In most cases, you can actually figure it out. So you should sit down and figure it out.”

5. Keep the solution simple

Any solution to a problem has to be implemented by your team. So keep it simple. Be able to explain the solution clearly and precisely in 30 seconds. Limit the action items to solve the problem to three. Go for the solution that solves 80 percent of the problem but that is 100 percent implementable by the team—rather than a 100 percent solution that is unlikely to ever be properly implemented.

6. Do not re-invent the wheel

Plagiarism can be good. If someone has a clever idea or way to solve your problem, by all means legally use it. The “not invented here” syndrome is just sheer arrogance.

7. Gain momentum in problem solving

In situations where you have multiple problems to solve (e.g., business turnarounds) pluck the low-hanging but important fruit first. Solve the easy problems. This gives you momentum, shows progress and gives your team confidence.

8. Consider time

With any solution, ensure that you do first what needs to be done first. Also, ensure that the solution can be implemented in a reasonable period of time. Solutions that take longer than a few months will likely fail. The momentum will die out or top management will move on to another “critical issue.”

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9.5: Pitfalls to Problem Solving

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Learning Objectives

Explain some common roadblocks to effective problem solving

Not all problems are successfully solved, however. What challenges stop us from successfully solving a problem? Albert Einstein once said, “Insanity is doing the same thing over and over again and expecting a different result.” Imagine a person in a room that has four doorways. One doorway that has always been open in the past is now locked. The person, accustomed to exiting the room by that particular doorway, keeps trying to get out through the same doorway even though the other three doorways are open. The person is stuck—but she just needs to go to another doorway, instead of trying to get out through the locked doorway. A mental set is where you persist in approaching a problem in a way that has worked in the past but is clearly not working now. Functional fixedness is a type of mental set where you cannot perceive an object being used for something other than what it was designed for. During the Apollo 13 mission to the moon, NASA engineers at Mission Control had to overcome functional fixedness to save the lives of the astronauts aboard the spacecraft. An explosion in a module of the spacecraft damaged multiple systems. The astronauts were in danger of being poisoned by rising levels of carbon dioxide because of problems with the carbon dioxide filters. The engineers found a way for the astronauts to use spare plastic bags, tape, and air hoses to create a makeshift air filter, which saved the lives of the astronauts.

Figure 1 . In Duncker’s classic study, participants were provided the three objects in the top panel and asked to solve the problem. The solution is shown in the bottom portion.

Link to Learning

Check out this Apollo 13 scene where the group of NASA engineers are given the task of overcoming functional fixedness.

Query $\PageIndex{1}$

Query $\PageIndex{2}$

Query $\PageIndex{3}$

Watch this video from the Big Think to learn more about the confirmation bias.

You can view the transcript for “Confirmation Bias: Your Brain is So Judgmental” here (opens in new window) .

Hindsight bias leads you to believe that the event you just experienced was predictable, even though it really wasn’t. In other words, you knew all along that things would turn out the way they did. Representative bias describes a faulty way of thinking, in which you unintentionally stereotype someone or something; for example, you may assume that your professors spend their free time reading books and engaging in intellectual conversation, because the idea of them spending their time playing volleyball or visiting an amusement park does not fit in with your stereotypes of professors.

Finally, the availability heuristic is a heuristic in which you make a decision based on an example, information, or recent experience that is that readily available to you, even though it may not be the best example to inform your decision . To use a common example, would you guess there are more murders or more suicides in America each year? When asked, most people would guess there are more murders. In truth, there are twice as many suicides as there are murders each year. However, murders seem more common because we hear a lot more about murders on an average day. Unless someone we know or someone famous takes their own life, it does not make the news. Murders, on the other hand, we see in the news every day. This leads to the erroneous assumption that the easier it is to think of instances of something, the more often that thing occurs.

Watch the following video for an example of the availability heuristic.

You can view the transcript for “Availability Heuristic: Are Planes More Dangerous Than Cars?” here (opens in new window) .

Biases tend to “preserve that which is already established—to maintain our preexisting knowledge, beliefs, attitudes, and hypotheses” (Aronson, 1995; Kahneman, 2011). These biases are summarized in Table 2 below.

Learn more about heuristics and common biases through the article, “ 8 Common Thinking Mistakes Our Brains Make Every Day and How to Prevent Them ” by Belle Beth Cooper.

You can also watch this clever music video explaining these and other cognitive biases.

Query $\PageIndex{4}$

Query $\PageIndex{5}$

Query $\PageIndex{6}$

Think It Over

Which type of bias do you recognize in your own decision making processes? How has this bias affected how you’ve made decisions in the past and how can you use your awareness of it to improve your decisions making skills in the future?

anchoring bias: faulty heuristic in which you fixate on a single aspect of a problem to find a solution

availability heuristic: faulty heuristic in which you make a decision based on information readily available to you

confirmation bias: faulty heuristic in which you focus on information that confirms your beliefs

functional fixedness: inability to see an object as useful for any other use other than the one for which it was intended

hindsight bias: belief that the event just experienced was predictable, even though it really wasn’t

mental set: continually using an old solution to a problem without results

representative bias: faulty heuristic in which you stereotype someone or something without a valid basis for your judgment

Licenses and Attributions

CC licensed content, Original

Modification, adaptation, and original content. Provided by : Lumen Learning. License : CC BY: Attribution
Problem Solving. Authored by : OpenStax College. Located at : http://cnx.org/contents/[email protected]:Lk3YnvuC@6/Problem-Solving . License : Public Domain: No Known Copyright . License Terms : Download for free at http://cnx.org/contents/[email protected]
More information on heuristics. Authored by : Dr. Scott Roberts, Dr. Ryan Curtis, Samantha Levy, and Dr. Dylan Selterman. Provided by : University of Maryland. Located at : http://openpsyc.blogspot.com/2014/07/heuristics.html . Project : OpenPSYC. License : CC BY-NC-SA: Attribution-NonCommercial-ShareAlike

Master the 3 Basics of Critical Thinking

Critical thinking is a whole lot harder than it looks..

Posted March 15, 2023 | Reviewed by Vanessa Lancaster

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Often, you don’t need to make important decisions based on your current judgment.
Good decision-making is about being able to predict likely outcomes.

Critical thinking skills are incredibly valuable–among the most in-demand skills in nearly every labor market sector. They are so valuable and in demand because they are considered to be in relatively short supply. That’s because critical thinking is a whole lot harder than it looks.

Critical thinkers do not leap to conclusions. Instead, they take the time to consider various possibilities and do not become too attached to one point of view. They do not latch on to one solution. Rather, they know that most solutions are temporary and improve over time with new data. Critical thinkers are in the habit of distinguishing between reliable and unreliable sources. They carefully weigh the strengths of conflicting views and apply logical reasoning. Critical thinkers are, at once, open to the views of others and supremely independent in their judgments.

If you want to set yourself apart at your job or in the hiring process, these are the three elements of critical thinking to master.

1. Proactive Learning

Here’s why you should care about proactive learning: Of course, the more you learn, the more you will know. But there is more to it than that: All the leading research shows that the very act of learning also strengthens your mind. If you are not actively learning, your mind is weakening—just like any muscle. No matter how smart you are, if you are not actively learning, you steadily lose those smarts over time.

The best way to build strong mental muscles is the same as physical ones: exercise them regularly. That means studying information, practicing technique, and contemplating multiple competing perspectives:

Stored knowledge is the result of studying good information.
Stored skills are the result of practicing good technique.
Stored wisdom is the result of contemplating multiple competing good perspectives.

“Good technique,” in the case of non-physical skills, means keeping an open mind. That means suspending judgment, questioning assumptions, and continually seeking the best new information, technique, and perspective.

2. Problem-Solving

In today’s information environment, so many answers to so many questions are available at the tip of their fingers. Many people today are simply not in the habit of truly thinking on their feet. Without a lot of experience puzzling through problems, it should be no surprise that many people are often puzzled when encountering unanticipated problems.

Here’s the thing: Usually, you don’t need to make important decisions based on your current judgment. You are much better off if you can rely on the accumulated experience of the organization in which you are working.

Ready-made solutions are just best practices captured, turned into standard operating procedures, and deployed throughout the organization to employees for use as job aids. The most common is a simple checklist:

If A happens, do B
If C happens, do D
If E happens, do F

What kind of job aids do you have at your disposal to deal with recurring problems? If you already have such job aids at your disposal, how can you better use them as learning tools?

And here’s the good news: By mastering these best practices, you will get better not only at solving the specific problems anticipated but also much better at solving unanticipated problems. By implementing specific step-by-step solutions to recurring problems, you will learn a lot about good problem-solving.

3. Decision-Making

Decision-making is not the same as sheer brain power, mental capacity, or natural intelligence . It’s not a matter of accumulated knowledge or memorized information. It is more than the mastery of techniques and tools.

Good decision-making is about predicting likely outcomes–the ability to see the connections between cause and effect–to project out the consequences of one set of events and actions instead of another. The irony is that learning from the past is the only way to develop that “go forward” ability to predict the future.

But experience alone does not teach good decision-making. The key to learning from experience is paying close attention and aggressively drawing lessons from one’s experiences. If you can begin to see the patterns in causes and their effects, you can start thinking ahead with insight. Ultimately, that’s the key to better decision-making.

Bruce Tulgan, JD, is the founder and CEO of RainmakerThinking and the author of The Art of Being Indispensable at Work.

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Problem Solving Through Programming in C

In this lesson, we are going to learn Problem Solving Through Programming in C. This is the first lesson while we start learning the C language.

So let’s start learning the C language.

Table of Contents

Introduction to Problem Solving Through Programming in C

Regardless of the area of the study, computer science is all about solving problems with computers. The problem that we want to solve can come from any real-world problem or perhaps even from the abstract world. We need to have a standard systematic approach to problem solving through programming in c.

computer programmers are problem solvers. In order to solve a problem on a computer, we must know how to represent the information describing the problem and determine the steps to transform the information from one representation into another.

In this chapter, we will learn problem-solving and steps in problem-solving, basic tools for designing solution as an algorithm, flowchart , pseudo code etc.

A computer is a very powerful and versatile machine capable of performing a multitude of different tasks, yet it has no intelligence or thinking power.

The Computer performs many tasks exactly in the same manner as it is told to do. This places responsibility on the user to instruct the computer in a correct and precise manner so that the machine is able to perform the required job in a proper way. A wrong or ambiguous instruction may sometimes prove dangerous.

The computer cannot solve the problem on its own, one has to provide step by step solutions of the problem to the computer. In fact, the task of problem-solving is not that of the computer.

It is the programmer who has to write down the solution to the problem in terms of simple operations which the computer can understand and execute.

Problem-solving is a sequential process of analyzing information related to a given situation and generating appropriate response options.

In order to solve a problem with the computer, one has to pass through certain stages or steps. They are as follows:

Steps to Solve a Problem With the Computer

problem solving through programming in c

Step 1: Understanding the Problem:

Here we try to understand the problem to be solved in totally. Before with the next stage or step, we should be absolutely sure about the objectives of the given problem.

Step 2: Analyzing the Problem:

After understanding thoroughly the problem to be solved, we look at different ways of solving the problem and evaluate each of these methods.

The idea here is to search for an appropriate solution to the problem under consideration. The end result of this stage is a broad overview of the sequence of operations that are to be carried out to solve the given problem.

Step 3: Developing the solution:

Here, the overview of the sequence of operations that was the result of the analysis stage is expanded to form a detailed step by step solution to the problem under consideration.

Step 4: Coding and Implementation:

The last stage of problem-solving is the conversion of the detailed sequence of operations into a language that the computer can understand. Here, each step is converted to its equivalent instruction or instructions in the computer language that has been chosen for the implantation.

The vehicle for the computer solution to a problem is a set of explicit and unambiguous instructions expressed in a programming language. This set of instruction is called a program with problem solving through programming in C .

A program may also be thought of as an algorithm expressed in a programming language. an algorithm, therefore, corresponds to a solution to a problem that is independent of any programming language .

To obtain the computer solution to a problem once we have the program we usually have to supply the program with input or data. The program then takes this input and manipulates it according to its instructions. Eventually produces an output which represents the computer solution to the problem.

The problem solving is a skill and there are no universal approaches one can take to solving problems. Basically one must explore possible avenues to a solution one by one until she/he comes across the right path to a solution.

In general, as one gains experience in solving problems, one develops one’s own techniques and strategies, though they are often intangible. Problem-solving skills are recognized as an integral component of computer programming.

Note: Practice C Programs for problem solving through programming in C.

Problem Solving Steps

Problem-solving is a creative process which defines systematization and mechanization. There are a number of steps that can be taken to raise the level of one’s performance in problem-solving.

A problem-solving technique follows certain steps in finding the solution to a problem. Let us look into the steps one by one:

1. Problem Definition Phase:

The success in solving any problem is possible only after the problem has been fully understood. That is, we cannot hope to solve a problem, which we do not understand. So, the problem understanding is the first step towards the solution of the problem.

In the problem definition phase, we must emphasize what must be done rather than how is it to be done. That is, we try to extract the precisely defined set of tasks from the problem statement.

Inexperienced problem solvers too often gallop ahead with the task of the problem – solving only to find that they are either solving the wrong problem or solving the wrong problem or solving just one particular problem.

2. Getting Started on a Problem:

There are many ways of solving a problem and there may be several solutions. So, it is difficult to recognize immediately which path could be more productive. Problem solving through programming in C.

Sometimes you do not have any idea where to begin solving a problem, even if the problem has been defined. Such block sometimes occurs because you are overly concerned with the details of the implementation even before you have completely understood or worked out a solution.

The best advice is not to get concerned with the details. Those can come later when the intricacies of the problem have been understood.

3. Use of Specific Examples:

To get started on a problem, we can make use of heuristics i.e the rule of thumb. This approach will allow us to start on the problem by picking a specific problem we wish to solve and try to work out the mechanism that will allow solving this particular problem.

It is usually much easier to work out the details of a solution to a specific problem because the relationship between the mechanism and the problem is more clearly defined.

This approach of focusing on a particular problem can give us the foothold we need for making a start on the solution to the general problem.

4. Similarities Among Problems:

One way to make a start is by considering a specific example. Another approach is to bring the experience to bear on the current problems. So, it is important to see if there are any similarities between the current problem and the past problems which we have solved.

The more experience one has the more tools and techniques one can bring to bear in tackling the given problem. But sometimes, it blocks us from discovering a desirable or better solution to the problem.

A skill that is important to try to develop in problem-solving is the ability to view a problem from a variety of angles.

One must be able to metaphorically turn a problem upside down, inside out, sideways, backwards, forwards and so on. Once one has developed this skill it should be possible to get started on any problem.

5. Working Backwards from the Solution:

In some cases, we can assume that we already have the solution to the problem and then try to work backwards to the starting point. Even a guess at the solution to the problem may be enough to give us a foothold to start on the problem.

We can systematize the investigations and avoid duplicate efforts by writing down the various steps taken and explorations made.

Another practice that helps to develop the problem-solving skills, once we have solved a problem, to consciously reflect back on the way we went about discovering the solution.

General Problem Solving Strategies:

There are a number of general and powerful computational strategies that are repeatedly used in various guises in computer science.

Often it is possible to phrase a problem in terms of one of these strategies and achieve considerable gains in computational efficiency.

1. Divide and Conquer:

The most widely known and used strategy, where the basic idea is to break down the original problem into two or more sub-problems, which is presumably easier or more efficient to solve.

The Splitting can be carried on further so that eventually we have many sub-problems, so small that further splitting is no necessary to solve them. We shall see many examples of this strategy and discuss the gain in efficiency due to its application.

2. Binary Doubling:

This is the reverse of the divide and conquers strategy i.e build-up the solution for a larger problem from solutions and smaller sub-problems.

3. Dynamic Programming:

Another general strategy for problem-solving which is useful when we can build-up the solution as a sequence of the intermediate steps. Problem Solving through programming in C.

The travelling salesman problem falls into this category. The idea here is that a good or optimal solution to a problem can be built-up from good or optimal solutions of the sub-problems.

4. General Search, Back Tracking and Branch-and-Bound:

All of these are variants of the basic dynamic programming strategy but are equally important.

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COMMENTS

What is Problem Solving? Steps, Process & Techniques
1. Define the problem. Diagnose the situation so that your focus is on the problem, not just its symptoms. Helpful problem-solving techniques include using flowcharts to identify the expected steps of a process and cause-and-effect diagrams to define and analyze root causes.. The sections below help explain key problem-solving steps.
The Problem-Solving Process
Problem-solving is a mental process that involves discovering, analyzing, and solving problems. The ultimate goal of problem-solving is to overcome obstacles and find a solution that best resolves the issue. The best strategy for solving a problem depends largely on the unique situation. In some cases, people are better off learning everything ...
What is Problem Solving? (Steps, Techniques, Examples)
The problem-solving process typically includes the following steps: Identify the issue: Recognize the problem that needs to be solved. Analyze the situation: Examine the issue in depth, gather all relevant information, and consider any limitations or constraints that may be present. Generate potential solutions: Brainstorm a list of possible ...
The Three Stages of the Problem-Solving Cycle
Essentially every problem-solving heuristic in mathematics goes back to George Polya's How to Solve It; my approach is no exception. However, this cyclic description might help to keep the process cognitively present. A few months ago, I produced a video describing this the three stages of the problem-solving cycle: Understand, Strategize, and Implement.
What Is Problem Solving?
The first step in solving a problem is understanding what that problem actually is. You need to be sure that you're dealing with the real problem - not its symptoms. For example, if performance in your department is substandard, you might think that the problem lies with the individuals submitting work. However, if you look a bit deeper, the ...
7.3 Problem-Solving
Additional Problem Solving Strategies:. Abstraction - refers to solving the problem within a model of the situation before applying it to reality.; Analogy - is using a solution that solves a similar problem.; Brainstorming - refers to collecting an analyzing a large amount of solutions, especially within a group of people, to combine the solutions and developing them until an optimal ...
Problem-Solving Strategies and Obstacles
Several mental processes are at work during problem-solving. Among them are: Perceptually recognizing the problem. Representing the problem in memory. Considering relevant information that applies to the problem. Identifying different aspects of the problem. Labeling and describing the problem.
What is Problem Solving? A Complete Guide
Problem Solving refers to the cognitive process of identifying, analysing, and resolving a challenge or obstacle. It involves using logical reasoning, critical thinking, and creativity to find effective solutions. You may have to deal with solving problems in many situations, from simple everyday problems to complex issues requiring in-depth ...
What Is Problem-Solving? Steps, Techniques, and Best Practices ...
The 5 Stages of Problem-solving. We'll now take an in-depth look at each stage of the process. 1-Define the problem. When it comes to problem-solving, many people tend to jump straight to the ...
The Art of Effective Problem Solving: A Step-by-Step Guide
Step 1 - Define the Problem. The definition of the problem is the first step in effective problem solving. This may appear to be a simple task, but it is actually quite difficult. This is because problems are frequently complex and multi-layered, making it easy to confuse symptoms with the underlying cause.
35 problem-solving techniques and methods for solving complex problems
6. Discovery & Action Dialogue (DAD) One of the best approaches is to create a safe space for a group to share and discover practices and behaviors that can help them find their own solutions. With DAD, you can help a group choose which problems they wish to solve and which approaches they will take to do so.
What is Problem Solving? How to Do It? Step-by-Step Techniques
Step 1: Define the Problem. The first step in any problem-solving process is clearly defining the problem at hand. Begin by identifying your issue, and try articulating it as accurately and precisely as possible. Next, consider any underlying causes, constraints, or factors influencing the situation.
7.3 Problem Solving
Solving Puzzles. Problem-solving abilities can improve with practice. Many people challenge themselves every day with puzzles and other mental exercises to sharpen their problem-solving skills. Sudoku puzzles appear daily in most newspapers. Typically, a sudoku puzzle is a 9×9 grid. The simple sudoku below is a 4×4 grid. To solve the puzzle ...
Section 3. Defining and Analyzing the Problem
The first step in any effective problem-solving process may be the most important. Take your time to develop a critical definition, and let this definition, and the analysis that follows, guide you through the process. You're now ready to go on to generating and choosing solutions, which are the next steps in the problem-solving process, and ...
The 5 Phases of Problem-Solving
Problem-solving is a vital skill in any workplace. To help you brush up your skills, here's our guide to the 5 phases of problem-solving. Problem-solving is a vital skill in any workplace. To help you brush up your skills, here's our guide to the 5 phases of problem-solving.
Problem solving techniques: Steps and methods
Evaluate the options. Select the best solution. Create an implementation plan. Communicate your solution. Let's look at each step in a little more detail. The first solution you come up with won't always be the best - taking the time to consider your options is an essential problem solving technique. 1.
Problem Solving: Understanding and Dealing with Challenges
Problems can manifest in 3 ways: physical symptoms, negative thoughts, and maladaptive behaviours or habits. Awareness of how your problems manifest and play out is essential for effective problem ...
The Eight Fundamentals of Problem Solving
1. Define the Real Problem. This is the biggie. Ensure that you are solving the right problem. Toyota is justifiably famous for its problem-solving savvy in perfecting its production methods. According to Toyota, the key to their method is to spend relatively more time defining the problem and relatively less time on figuring out the solution. 2.
3 Key Elements for Problem-Solving Success
Problem-solving is a crucial skill that is essential for success in both personal and professional life. Whether it is a simple task or a complex project, being able to effectively solve problems ...
9.5: Pitfalls to Problem Solving
Try It. Query 9.5.1 9.5. 1. Query 9.5.2 9.5. 2. Query 9.5.3 9.5. 3. In order to make good decisions, we use our knowledge and our reasoning. Often, this knowledge and reasoning is sound and solid. Sometimes, however, we are swayed by biases or by others manipulating a situation.
What Are Problem-Solving Skills? Definitions and Examples
When employers talk about problem-solving skills, they are often referring to the ability to handle difficult or unexpected situations in the workplace as well as complex business challenges. Organizations rely on people who can assess both kinds of situations and calmly identify solutions. Problem-solving skills are traits that enable you to ...
Master the 3 Basics of Critical Thinking
Critical thinkers are, at once, open to the views of others and supremely independent in their judgments. If you want to set yourself apart at your job or in the hiring process, these are the ...
Problem Solving Through Programming in C
A problem-solving technique follows certain steps in finding the solution to a problem. Let us look into the steps one by one: 1. Problem Definition Phase: The success in solving any problem is possible only after the problem has been fully understood. That is, we cannot hope to solve a problem, which we do not understand.

What is Problem Solving? (Steps, Techniques, Examples)

What Is Problem Solving?

Problem-Solving Steps

Defining the Problem

Generating Solutions

Evaluating and Selecting Solutions

Implementing and Monitoring the Solution

Problem-Solving Techniques

Brainstorming

Root Cause Analysis

SWOT Analysis

Mind Mapping

Examples of Problem Solving in Various Contexts

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What Is Problem Solving?

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Define Every Problem

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General Problem-Solving Tools

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7.3 Problem-Solving

PROBLEM-SOLVING STRATEGIES

Additional Problem Solving Strategies :

Figure 7.02. Steps for solving the Tower of Hanoi in the minimum number of moves when there are 3 disks.

Figure 7.03. Graphical representation of nodes (circles) and moves (lines) of Tower of Hanoi.

GESTALT PSYCHOLOGY AND PROBLEM SOLVING

How long did it take you to solve this sudoku puzzle? (You can see the answer at the end of this section.)

Did you figure it out? (The answer is at the end of this section.) Once you understand how to crack this puzzle, you won’t forget.

What steps did you take to solve this puzzle? You can read the solution at the end of this section.

Answers to Exercises

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Problem-Solving Strategies and Obstacles

What Is Problem-Solving?

Problem-Solving Mental Processes

Problem-Solving Strategies

Trial and Error

How to Apply Problem-Solving Strategies in Real Life

Obstacles to Problem-Solving

How to Improve Your Problem-Solving Skills

What is Problem Solving? A Complete Guide

Training Outcomes Within Your Budget!

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What is Problem Solving definition?

The process of Problem Solving

Understanding the problem

Generating possible solutions

Evaluating and selecting the best solution

Implementing the solution

Assessing the results

Key skills for effective Problem Solving

Critical thinking

Creativity

Analytical skills

Decision-making

Strategies for enhancing Problem Solving abilities

Practice critical thinking

Seek feedback and learn from experience

Embrace challenges

Collaborate with others

Continuously learn and update knowledge

Think outside the box

Problem Solving tools and techniques

Root cause analysis

Strengths, Weaknesses, Opportunities, Threats (SWOT) analysis

Fishbone diagrams

Decision matrices

Six Thinking Hats