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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.  

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Problem-Solving Strategies and Obstacles

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• Application
• Improvement

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.

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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."

Module 5: Thinking and Analysis

Problem-solving with critical thinking, learning outcomes.

• Describe how critical thinking skills can be used in problem-solving

Most of us face problems that we must solve every day. While some problems are more complex than others, we can apply critical thinking skills to every problem by asking questions like, what information am I missing? Why and how is it important? What are the contributing factors that lead to the problem? What resources are available to solve the problem? These questions are just the start of being able to think of innovative and effective solutions. Read through the following critical thinking, problem-solving process to identify steps you are already familiar with as well as opportunities to build a more critical approach to solving problems.

Problem-Solving Process

Step 1: define the problem.

Albert Einstein once said, “If I had an hour to solve a problem, I’d spend 55 minutes thinking about the problem and five minutes thinking about solutions.”

Often, when we first hear of or learn about a problem, we do not have all the information. If we immediately try to find a solution without having a thorough understanding of the problem, then we may only be solving a part of the problem.  This is called a “band-aid fix,” or when a symptom is addressed, but not the actual problem. While these band-aid fixes may provide temporary relief, if the actual problem is not addressed soon, then the problem will continue and likely get worse. Therefore, the first step when using critical thinking to solve problems is to identify the problem. The goal during this step is to gather enough research to determine how widespread the problem is, its nature, and its importance.

Step 2: Analyze the Causes

This step is used to uncover assumptions and underlying problems that are at the root of the problem. This step is important since you will need to ensure that whatever solution is chosen addresses the actual cause, or causes, of the problem.

Asking “why” questions to uncover root causes

A common way to uncover root causes is by asking why questions. When we are given an answer to a why question, we will often need to question that answer itself. Thus the process of asking “why” is an  iterative process —meaning that it is a process that we can repeatedly apply. When we stop asking why questions depends on what information we need and that can differ depending on what the goals are. For a better understanding, see the example below:

Problem: The lamp does not turn on.

• Why doesn’t the lamp turn on? The fuse is blown.
• Why is the fuse blown? There was overloaded circuit.
• Why was the circuit overloaded? The hair dryer was on.

If one is simply a homeowner or tenant, then it might be enough to simply know that if the hair dryer is on, the circuit will overload and turn off.  However, one can always ask further why questions, depending on what the goal is. For example, suppose someone wants to know if all hair dryers overload circuits or just this one. We might continue thus:

• Why did this hair dryer overload the circuit? Because hair dryers in general require a lot of electricity.

But now suppose we are an electrical engineer and are interested in designing a more environmentally friendly hair dryer. In that case, we might ask further:

• Why do hair dryers require so much energy?

As you can see from this example, what counts as a root cause depends on context and interests. The homeowner will not necessarily be interested in asking the further why questions whereas others might be.

Step 3: Generate Solutions

The goal of this step is to generate as many solutions as possible. In order to do so, brainstorm as many ideas as possible, no matter how outrageous or ineffective the idea might seem at the time. During your brainstorming session, it is important to generate solutions freely without editing or evaluating any of the ideas. The more solutions that you can generate, the more innovative and effective your ultimate solution might become upon later review.

You might find that setting a timer for fifteen to thirty minutes will help you to creatively push past the point when you think you are done. Another method might be to set a target for how many ideas you will generate. You might also consider using categories to trigger ideas. If you are brainstorming with a group, consider brainstorming individually for a while and then also brainstorming together as ideas can build from one idea to the next.

Step 4: Select a Solution

Once the brainstorming session is complete, then it is time to evaluate the solutions and select the more effective one.  Here you will consider how each solution will address the causes determined in step 2. It is also helpful to develop the criteria you will use when evaluating each solution, for instance, cost, time, difficulty level, resources needed, etc. Once your criteria for evaluation is established, then consider ranking each criterion by importance since some solutions might meet all criteria, but not to equally effective degrees.

In addition to evaluating by criteria, ensure that you consider possibilities and consequences of all serious contenders to address any drawbacks to a solution. Lastly, ensure that the solutions are actually feasible.

Step 6: Put Solution into Action

While many problem-solving models stop at simply selecting a solution, in order to actually solve a problem, the solution must be put into action. Here, you take responsibility to create, communicate, and execute the plan with detailed organizational logistics by addressing who will be responsible for what, when, and how.

Step 7: Evaluate progress

The final step when employing critical thinking to problem-solving is to evaluate the progress of the solution. Since critical thinking demands open-mindedness, analysis, and a willingness to change one’s mind, it is important to monitor how well the solution has actually solved the problem in order to determine if any course correction is needed.

While we solve problems every day, following the process to apply more critical thinking approaches in each step by considering what information might be missing; analyzing the problem and causes; remaining open-minded while brainstorming solutions; and providing criteria for, evaluating, and monitoring solutions can help you to become a better problem-solver and strengthen your critical thinking skills.

iterative process: one that can be repeatedly applied

• Problem solving. Authored by : Anne Fleischer. Provided by : Lumen Learning. License : CC BY: Attribution
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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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Guide: Problem Solving

Author: Daniel Croft

Daniel Croft is an experienced continuous improvement manager with a Lean Six Sigma Black Belt and a Bachelor's degree in Business Management. With more than ten years of experience applying his skills across various industries, Daniel specializes in optimizing processes and improving efficiency. His approach combines practical experience with a deep understanding of business fundamentals to drive meaningful change.

Problem-solving stands as a fundamental skill, crucial in navigating the complexities of both everyday life and professional environments. Far from merely providing quick fixes, it entails a comprehensive process involving the identification, analysis, and resolution of issues.

This multifaceted approach requires an understanding of the problem’s nature, the exploration of its various components, and the development of effective solutions. At its core, problem-solving serves as a bridge from the current situation to a desired outcome, requiring not only the recognition of an existing gap but also the precise definition and thorough analysis of the problem to find viable solutions.

What is Problem Solving?

At its core, problem-solving is about bridging the gap between the current situation and the desired outcome. It starts with recognizing that a discrepancy exists, which requires intervention to correct or improve. The ability to identify a problem is the first step, but it’s equally crucial to define it accurately. A well-defined problem is half-solved, as the saying goes.

Analyzing the problem is the next critical step. This analysis involves breaking down the problem into smaller parts to understand its intricacies. It requires looking at the problem from various angles and considering all relevant factors – be they environmental, social, technical, or economic. This comprehensive analysis aids in developing a deeper understanding of the problem’s root causes, rather than just its symptoms.

Finally, effective problem-solving involves the implementation of the chosen solution and its subsequent evaluation. This stage tests the practicality of the solution and its effectiveness in the real world. It’s a critical phase where theoretical solutions meet practical application.

The Nature of Problems

The nature of the problem significantly influences the approach to solving it. Problems vary greatly in their complexity and structure, and understanding this is crucial for effective problem-solving.

Simple vs. Complex Problems : Simple problems are straightforward, often with clear solutions. They usually have a limited number of variables and predictable outcomes. On the other hand, complex problems are multi-faceted. They involve multiple variables, stakeholders, and potential outcomes, often requiring a more sophisticated analysis and a multi-pronged approach to solving.

Structured vs. Unstructured Problems : Structured problems are well-defined. They follow a specific pattern or set of rules, making their outcomes more predictable. These problems often have established methodologies for solving. For example, mathematical problems usually fall into this category. Unstructured problems, in contrast, are more ambiguous. They lack a clear pattern or set of rules, making their outcomes uncertain. These problems require a more exploratory approach, often involving trial and error, to identify potential solutions.

Understanding the type of problem at hand is essential, as it dictates the approach. For instance, a simple problem might require a straightforward solution, while a complex problem might need a more comprehensive, step-by-step approach. Similarly, structured problems might benefit from established methodologies, whereas unstructured problems might need more innovative and creative problem-solving techniques.

The Problem-Solving Process

The process of problem-solving is a methodical approach that involves several distinct stages. Each stage plays a crucial role in navigating from the initial recognition of a problem to its final resolution. Let’s explore each of these stages in detail.

Step 1: Identifying the Problem

Step 2: Defining the Problem

Once the problem is identified, the next step is to define it clearly and precisely. This is a critical phase because a well-defined problem often suggests its solution. Defining the problem involves breaking it down into smaller, more manageable parts. It also includes understanding the scope and impact of the problem. A clear definition helps in focusing efforts and resources efficiently and serves as a guide to stay on track during the problem-solving process.

Step 3: Analyzing the Problem

Step 4: Generating Solutions

Step 5: Evaluating and Selecting Solutions

After generating a list of possible solutions, the next step is to evaluate each one critically. This evaluation includes considering the feasibility, costs, benefits, and potential impact of each solution. Techniques like cost-benefit analysis, risk assessment, and scenario planning can be useful here. The aim is to select the solution that best addresses the problem in the most efficient and effective way, considering the available resources and constraints.

Step 6: Implementing the Solution

Step 7: Reviewing and Reflecting

The final stage in the problem-solving process is to review the implemented solution and reflect on its effectiveness and the process as a whole. This involves assessing whether the solution met its intended goals and what could have been done differently. Reflection is a critical part of learning and improvement. It helps in understanding what worked well and what didn’t, providing valuable insights for future problem-solving efforts.

Tools and Techniques for Effective Problem Solving

Problem-solving is a multifaceted endeavor that requires a variety of tools and techniques to navigate effectively. Different stages of the problem-solving process can benefit from specific strategies, enhancing the efficiency and effectiveness of the solutions developed. Here’s a detailed look at some key tools and techniques:

Brainstorming

SWOT Analysis (Strengths, Weaknesses, Opportunities, Threats)

Root Cause Analysis

This is a method used to identify the underlying causes of a problem, rather than just addressing its symptoms. One popular technique within root cause analysis is the “ 5 Whys ” method. This involves asking “why” multiple times (traditionally five) until the fundamental cause of the problem is uncovered. This technique encourages deeper thinking and can reveal connections that aren’t immediately obvious. By addressing the root cause, solutions are more likely to be effective and long-lasting.

Mind Mapping

Each of these tools and techniques can be adapted to different types of problems and situations. Effective problem solvers often use a combination of these methods, depending on the nature of the problem and the context in which it exists. By leveraging these tools, one can enhance their ability to dissect complex problems, generate creative solutions, and implement effective strategies to address challenges.

Developing Problem-Solving Skills

Developing problem-solving skills is a dynamic process that hinges on both practice and introspection. Engaging with a diverse array of problems enhances one’s ability to adapt and apply different strategies. This exposure is crucial as it allows individuals to encounter various scenarios, ranging from straightforward to complex, each requiring a unique approach. Collaborating with others in teams is especially beneficial. It broadens one’s perspective, offering insights into different ways of thinking and approaching problems. Such collaboration fosters a deeper understanding of how diverse viewpoints can contribute to more robust solutions.

Reflection is equally important in the development of problem-solving skills. Reflecting on both successes and failures provides valuable lessons. Successes reinforce effective strategies and boost confidence, while failures are rich learning opportunities that highlight areas for improvement. This reflective practice enables one to understand what worked, what didn’t, and why.

Critical thinking is a foundational skill in problem-solving. It involves analyzing information, evaluating different perspectives, and making reasoned judgments. Creativity is another vital component. It pushes the boundaries of conventional thinking and leads to innovative solutions. Effective communication also plays a crucial role, as it ensures that ideas are clearly understood and collaboratively refined.

In conclusion, problem-solving is an indispensable skill set that blends analytical thinking, creativity, and practical implementation. It’s a journey from understanding the problem to applying a solution and learning from the outcome.

Whether dealing with simple or complex issues, or structured or unstructured challenges, the essence of problem-solving lies in a methodical approach and the effective use of various tools and techniques. It’s a skill that is honed over time, through experience, reflection, and the continuous development of critical thinking, creativity, and communication abilities. In mastering problem-solving, one not only addresses immediate issues but also builds a foundation for future challenges, leading to more innovative and effective outcomes.

• Mourtos, N.J., Okamoto, N.D. and Rhee, J., 2004, February. Defining, teaching, and assessing problem solving skills . In  7th UICEE Annual Conference on Engineering Education  (pp. 1-5).
• Foshay, R. and Kirkley, J., 2003. Principles for teaching problem solving.   Technical paper ,  4 (1), pp.1-16.

Q: What are the key steps in the problem-solving process?

A : The problem-solving process involves several key steps: identifying the problem, defining it clearly, analyzing it to understand its root causes, generating a range of potential solutions, evaluating and selecting the most viable solution, implementing the chosen solution, and finally, reviewing and reflecting on the effectiveness of the solution and the process used to arrive at it.

Q: How can brainstorming be effectively used in problem-solving?

A: Brainstorming is effective in the solution generation phase of problem-solving. It involves gathering a group and encouraging the free flow of ideas without immediate criticism. The goal is to produce a large quantity of ideas, fostering creative thinking. This technique helps in uncovering unique and innovative solutions that might not surface in a more structured setting.

Q: What is SWOT Analysis and how does it aid in problem-solving?

A : SWOT Analysis is a strategic planning tool used to evaluate the Strengths, Weaknesses, Opportunities, and Threats involved in a situation. In problem-solving, it aids by providing a clear understanding of the internal and external factors that could impact the problem and potential solutions. This analysis helps in formulating strategies that leverage strengths and opportunities while mitigating weaknesses and threats.

Q: Why is it important to understand the nature of a problem before solving it?

A : Understanding the nature of a problem is crucial as it dictates the approach for solving it. Problems can be simple or complex, structured or unstructured, and each type requires a different strategy. A clear understanding of the problem’s nature helps in applying the appropriate methods and tools for effective resolution.

Q: How does reflection contribute to developing problem-solving skills?

A : Reflection is a critical component in developing problem-solving skills. It involves looking back at the problem-solving process and the implemented solution to assess what worked well and what didn’t. Reflecting on both successes and failures provides valuable insights and lessons, helping to refine and improve problem-solving strategies for future challenges. This reflective practice enhances one’s ability to approach problems more effectively over time.

Daniel Croft

Hi im Daniel continuous improvement manager with a Black Belt in Lean Six Sigma and over 10 years of real-world experience across a range sectors, I have a passion for optimizing processes and creating a culture of efficiency. I wanted to create Learn Lean Siigma to be a platform dedicated to Lean Six Sigma and process improvement insights and provide all the guides, tools, techniques and templates I looked for in one place as someone new to the world of Lean Six Sigma and Continuous improvement.

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The process is only a guide for problem solving. It is useful to have a structure to follow to make sure that nothing is overlooked. Nothing here is likely to be brand new to anyone, but it is the pure acknowledgement and reminding of the process that can help the problems to be solved. The normal process for solving a problem will initially involve defining the problem you want to solve. You need to decide what you want achieve and write it down. Often people keep the problem in their head as a vague idea and can so often get lost in what they are trying to solve that no solution seems to fit. Merely writing down the problem forces you to think about what you are actually trying to solve and how much you want to achieve. The first part of the process not only involves writing down the problem to solve, but also checking that you are answering the right problem. It is a check-step to ensure that you do not answer a side issue or only solve the part of the problem that is most easy to solve. People often use the most immediate solution to the first problem definition that they find without spending time checking the problem is the right one to answer. The next step in the process is often to check where we are, what is the current situation and what is involved in making it a problem. For example, what are the benefits of the current product/service/process? And why did we decide to make it like that? Understanding where the problem is coming from, how it fits in with current developments and what the current environment is, is crucial when working out whether a solution will actually work or not. Similarly you must have a set of criteria by which to evaluate any new solutions or you will not know whether the idea is workable or not. This section of the problem solving process ensures that time is spent in stepping back and assessing the current situation and what actually needs to be changed. After this investigation, it is often good to go back one step to reconfirm that your problem definition is still valid. Frequently after the investigation people discover that the problem they really want to answer is very different from their original interpretation of it. When you have discovered the real problem that you want to solve and have investigated the climate into which the solution must fit, the next stage is to generate a number of possible solutions. At this stage you should concentrate on generating many solutions and should not evaluate them at all. Very often an idea, which would have been discarded immediately, when evaluated properly, can be developed into a superb solution. At this stage, you should not pre-judge any potential solutions but should treat each idea as a new idea in its own right and worthy of consideration. This section of the problem solving process is where you investigate the various factors about each of the potential solutions. You note down the good and bad points and other things which are relevant to each solution. Even at this stage you are not evaluating the solution because if you do so then you could decide not to write down the valid good points about it because overall you think it will not work. However you might discover that by writing down its advantages that it has a totally unique advantage. Only by discovering this might you choose to put the effort in to develop the idea so that it will work. This is the section where you look through the various influencing factors for each possible solution and decide which solutions to keep and which to disregard. You look at the solution as a whole and use your judgement as to whether to use the solution or not. In Innovation Toolbox, you can vote using either a Yes/No/Interesting process or on a sliding scale depending on how good the idea is. Sometimes pure facts and figures dictate which ideas will work and which will not. In other situations, it will be purely feelings and intuition that decides. Remember that intuition is really a lifetimes experience and judgement compressed into a single decision. By voting for the solutions you will end up with a shortlist of potential solutions. You may want to increase the depth in the analysis of each idea and vote again on that shortlist to further refine your shortlist. You will then end up with one, many or no viable solutions. In the case where you have no solutions that work, you will need to repeat the generation of solutions section to discover more potential solutions. Alternatively you might consider re-evaluating the problem again as sometimes you may not find a solution because the problem definition is not well defined or self-contradictory. This section of the process is where you write down what you are going to do next. Now that you have a potential solution or solutions you need to decide how you will make the solution happen. This will involve people doing various things at various times in the future and then confirming that they have been carried out as planned. This stage ensures that the valuable thinking that has gone into solving the problem becomes reality. This series of Next Steps is the logical step to physically solving the problem.     pages 6.2 Creative Problem-Solving Process Portions of the material in this section are based on original work by Geoffrey Graybeal and produced with support from the Rebus Community. The original is freely available under the terms of the CC BY 4.0 license at https://press.rebus.community/media-innovation-and-entrepreneurship/. Learning Objectives By the end of this section, you will be able to: Describe the five steps in the creative problem-solving process Identify and describe common creative problem-solving tools Creativity can be an important trait of an entrepreneur, as the chapter on Creativity, Innovation, and Invention discussed. In that discussion, we learned about creativity’s role in innovation . Here, we will look in more depth at creativity’s role in problem solving . Let’s first formally define creativity as the development of original ideas to solve an issue. The intent of being an entrepreneur is to break away from practical norms and use imagination to embrace quick and effective solutions to an existing problem, usually outside the corporate environment. The Steps of the Creative Problem-Solving Process Training oneself to think like an entrepreneur means learning the steps to evaluating a challenge: clarify, ideate, develop, implement, and evaluate ( Figure 6.9 ). Step 1: Clarify To clarify is the critical step of recognizing the existence of a gap between the current state and a desired state. This can also be thought of as having need awareness , which occurs when the entrepreneur notes a gap between societal or customer needs and actual circumstances. Clarifying the problem by speaking with clients and developing a detailed description of the problem brings the specifics of a problem to light. Failure to identify the specifics of a problem leaves the entrepreneur with the impossible task of solving a ghost problem, a problem that is fully unknown or unseen. To establish and maintain credibility, an entrepreneur must clarify the problem by focusing on solving the problem itself, rather than solving a symptom of the problem. For example, a farm could have polluted water, but it would not be enough to solve the problem only on that farm. Clarifying would involve identifying the source of the pollution to adequately tackle the problem. After gaining an understanding of a problem, the entrepreneur should begin to formulate plans for eliminating the gap. A fishbone diagram , as shown in Figure 6.10 , is a tool that can be used to identify the causes of such a problem. In the case of our water pollution example, a fishbone diagram exploring the issue might reveal the items shown in Figure 6.11 . Step 2: Ideate To ideate is the step of the creative problem-solving process that involves generating and detailing ideas by the entrepreneur. After collecting all information relevant to the problem, the entrepreneur lists as many causes of the problem as possible. This is the step in which the largest variety of ideas are put forth. Each idea must be evaluated for feasibility and cost as a solution to the problem. If a farm does not have clean water, for example, the entrepreneur must list causes of toxic water and eliminate as many of those causes as possible. The entrepreneur must then move forward investigating solutions to bring the water back to a safe state. If, say, nearby livestock are polluting the water, the livestock should be isolated from the water source. Step 3: Develop To develop is the step in which the entrepreneur takes the list of ideas generated and tests each solution for feasibility. The entrepreneur must consider the cost of each idea and the obstacles to implementation. In the preceding example, adding a chemical to the water may not be a feasible solution to the farmer. Not every farmer wants additional chloride or fluoride added to the water due to the effect on both humans and livestock. These tradeoffs should be addressed in the feasibility assessment. The farmer might prefer a filtration system, but the cost of that solution might not be practicable. The entrepreneur should identify and assess alternative solutions to find one that is most cost-effective and feasible to the customer. Step 4: Implement To implement is the step in which the solution to the problem is tested and evaluated. The entrepreneur walks through the planned implementation with the client and tests each part of the solution, if a service, or thoroughly tests a developed good. The entrepreneur implements the solution and goes through a structured system of follow-up to ensure the solution remains effective and viable. In the water example, the solution would be reducing runoff from toxic insecticides by adding prairie strips, buffers of grass, and vegetation along banks of streams. Step 5: Evaluate To evaluate is the step in which the final solution is assessed. This is a very important step that entrepreneurs often overlook. Any fallacy in the implementation of the product or service is reassessed, and new solutions are implemented. A continual testing process may be needed to find the final solution. The prairie strips, buffers of grass, and vegetation along banks of streams chosen in the farming water example should then be analyzed and tested to ensure the chosen solution changed the content of the water. Are You Ready? Implementing creative problem solving. Removing waste is a problem, and it can also present an entrepreneurial opportunity. Try to examine ways in which waste products that you usually pay to have hauled away can now generate revenue. Whether it’s recycling aluminum cans or cardboard, or garbage that could be used to feed animals, your task is to come up with solutions to this entrepreneurial-oriented problem. Try following the first step of the creative problem-solving process and clearly identify the problem. Next, gather data and formulate the challenge. Then, explore ideas and come up with solutions. Develop a plan of action. Finally, note how you would evaluate the effectiveness of your solution. Using Creativity to Solve Problems Entrepreneurs are faced with solving many problems as they develop their ideas for filling gaps, whether those opportunities involve establishing a new company or starting a new enterprise within an existing company. Some of these problems include staffing, hiring and managing employees, handling legal compliance, funding, marketing, and paying taxes. Beyond the mundane activities listed, the entrepreneur, or the team that the entrepreneur puts in place, is indispensable in maintaining the ongoing creativity behind the product line or service offered. Innovation and creativity in the business are necessary to expand the product line or develop a groundbreaking service. It is not necessary for the entrepreneur to feel isolated when it comes to finding creative solutions to a problem. There are societies, tools, and new methods available to spur the creativity of the entrepreneur that will further support the success and expansion of a new enterprise. 14 Learning and using entrepreneurial methods to solve problems alleviates the stress many startup owners feel. The entrepreneur’s creativity will increase using collaborative methodologies . Some entrepreneurial collaborative methodologies include crowdsourcing, brainstorming, storyboarding, conducting quick online surveys to test ideas and concepts, and team creativity activities. Crowdsourcing Professor Daren Brabham at the University of Southern California has written books on crowdsourcing and touts its potential in for-profit and not-for-profit business sectors. He defines it simply as “an online, distributed problem-solving and production model.” 15 Crowdsourcing involves teams of amateurs and nonexperts working together to form a solution to a problem. 16 The idea, as cbsnews.com’s Jennifer Alsever has put it, is to “tap into the collective intelligence of the public at large to complete business-related tasks that a company would normally either perform itself or outsource to a third-party provider. Yet free labor is only a narrow part of crowdsourcing's appeal. More importantly, it enables managers to expand the size of their talent pool while also gaining deeper insight into what customers really want. The challenge is to take a cautionary approach to the ‘wisdom of the crowd,’ which can lead to a ‘herd’ mentality.” 17 Link to Learning Read this article that discusses what crowdsourcing is, how to use it, and its benefits for more information. This new business prototype, similar to outsourcing, features an enterprise posting a problem online and asking for volunteers to consider the problem and propose solutions. Volunteers earn a reward, such as prize money, promotional materials like a T-shirt, royalties on creative outlets like photos or designs, and in some cases, compensation for their labor. Before proposing the solution, volunteers learn that the solutions become the intellectual property of the startup posting the problem. The solution is then mass produced for profit by the startup that posted the problem. 18 The process evolves into the crowdsourcing process after the enterprise mass produces and profits from the labor of the volunteers and the team. Entrepreneurs should consider that untapped masses have solutions for many issues for which agendas do not yet exist. Crowdsourcing can exploit those agendas and add to the tools used to stimulate personal creativity. This type of innovation is planned and strategically implemented for profit. For example, Bombardier held a crowdsourced innovation contest to solicit input on the future of train interiors, including seat design and coach class interior. A corporate jury judged the submissions, with the top ten receiving computers or cash prizes. Companies are often constrained, however, by internal rules limiting open source or external idea sourcing, as they could be accused of “stealing” an idea. While crowdsourcing outside of software can be problematic, some products such as MakerBot ’s 3D printers, 3DR’ s drones, and Jibo ’s Social Robot have used developer kits and “makers” to help build a community and stimulate innovation from the outside. Work It Out A crowdsourced potato chip. In an effort to increase sales among millennials, PepsiCo turned to crowdsourcing to get new flavor ideas for their Lay’s potato chips (called Walker’s in the UK). Their 2012 campaign, “Do Us a Flavor,” was so successful that they received over 14 million submissions. The winner was Cheesy Garlic Bread, which increased their potato chip sales by 8 percent during the first three months after the launch. What are some other products that would work well for a crowdsourced campaign contest? What items wouldn’t work well? Amazon ’s Mechanical Turk is an online crowdsourcing platform that allows individuals to post tasks for workers to complete. In many instances, these tasks are compensated, but the payment can be less than one dollar per item completed. Mechanical Turk is one of the largest and most well-known crowdsourcing platforms, but there are a number of other more niche ones as well that would apply to smaller markets. In the case of innovation contests and outsourced tasks from corporations, those tasks may be hosted internally by the corporation. Brainstorming Brainstorming is the generation of ideas in an environment free of judgment or dissension with the goal of creating solutions. See Creativity, Innovation, and Invention to refresh yourself on this technique. Brainstorming is meant to stimulate participants into thinking about problem solving in a new way. Using a multifunctional group, meaning participants come from different departments and with different skill sets, gives entrepreneurs and support teams a genuine chance to suggest and actualize ideas. The group works together to refine and prototype potential solutions to a problem. Brainstorming is a highly researched and often practiced technique for the development of innovative solutions. One of the more successful proponents of brainstorming is the United Nations Children’s Fund (UNICEF) . UNICEF faces unique problems of solving resource problems for mothers and children in underdeveloped nations. See how UNICEF practices brainstorming to solve problems including child survival, gender inclusion, refugee crises, education, and others. The setting for a brainstorming session should remain as informal and relaxed as possible. The group needs to avoid standard solutions. All ideas are welcome and listed and considered with no censorship and with no regard to administrative restrictions. All team members have an equal voice. The focus of brainstorming is on quantity of ideas rather than on the ideal solution provided in every suggestion. A classic entrepreneurial brainstorming activity, as popularized by business software developer Strategyzer , is known as the “silly cow” exercise. Teams come up with ideas for new business models pertaining to a cow, with the results often outrageous, ranging from sponsored cows to stroking cows for therapeutic release. Participants are asked to identify some aspect of a cow and develop three business models around that concept in a short time period, typically two minutes or fewer. The activity is designed to get creative juices flowing. Watch this video from ABC’s Nightline that shows how IDEO designed a new shopping cart for an example of a design process that involves brainstorming. Storyboarding Storyboarding is the process of presenting an idea in a step-by-step graphic format, as Figure 6.12 shows. This tool is useful when the entrepreneur is attempting to visualize a solution to a problem. The steps to the solution of a problem are sketched and hung in graphic format. Once the original graphic is placed, images of steps working toward a solution are added, subtracted, and rearranged on a continual basis, until the ultimate solution emerges in the ultimate graphic format. For many years, entrepreneurs have used this process to create a pre-visual for various media sequences. Team Creativity Team creativity is the process whereby an entrepreneur works with a team to create an unexpected solution for an issue or challenge. Teams progress through the same creative problem-solving process described already: clarify, ideate, develop, implement, and evaluate. The main advantage of team creativity is the collaboration and support members receive from one another. Great teams trust in other team members, have diverse members with diverse points of view, are cohesive, and have chemistry. Team members should work in a stress-free and relaxing environment. Reinforcement and expansion of ideas in the team environment motivates the team to continually expand horizons toward problem solution. A small idea in a team may spark the imagination of a team member to an original idea. Mark Zuckerberg , cofounder of Facebook , once said, “The most important thing for you as an entrepreneur trying to build something is, you need to build a really good team. And that’s what I spend all my time on.” 19 Entrepreneur In Action Taaluma totes 20. Young entrepreneurs Jack DuFour and Alley Heffern began to notice the beautiful fabrics that came from the different countries they visited. The entrepreneurs thought about what could be done with the fabrics to create employment opportunities both in the country from which the fabric originated and in their home base of Virginia. They decided to test producing totes from the fabrics they found and formed Taaluma Totes ( Figure 6.13 ). DuFour and Heffern also wanted to promote the production of these fabrics and help underserved populations in countries where the fabric originated maintain a living or follow a dream. The team continued to test the process and gathered original fabrics, which they sent to Virginia to create totes. They trained individuals with disabilities in Virginia to manufacture the totes, thus serving populations in the United States. The entrepreneurs then decided to take 20 percent of their profits and make microloans to farmers and small business owners in the countries where the fabric originated to create jobs there. Microloans are small loans, below $50,000, which certain lenders offer to enterprising startups. These startups, for various reasons (they are in poor nations, at poverty level), can’t afford a traditional loan from a major bank. The lenders offer business support to the borrower, which in turn helps the borrower repay the microloan. The microloans from Taaluma are repaid when the borrower is able. Repayments are used to buy more fabric, completing Taaluma’s desire to serve dual populations. If the process proved unsuccessful, the co-owners would revise the process to meet the plan’s requirements. DuFour and Heffern now have fabrics from dozens of countries from Thailand to Ecuador. The totes are specialized with features to meet individual needs. The product line is innovated regularly and Taaluma Totes serves a dual purpose of employing persons with disabilities in Virginia and creating employment for underserved populations in other countries. 14 “Creating a World of Opportunities.” The Collegiate Entrepreneurs’ Organization . n.d. https://www.c-e-o.org/ 15 Daren C. Brabham. “Crowdsourcing as a Model for Problem Solving: An Introduction and Cases.” Convergence: The International Journal of Research into New Media Technologies 14, no. 1 (2008): 75–90. 16 Michael Houlihan and Bonnie Harvey. “How Crowdsourcing Is Shaping the Future of Everything.” Entrepreneur. January 13, 2018. https://www.entrepreneur.com/article/307438 17 Jennifer Alsever. “What Is Crowdsourcing?” CBS News . May 1, 2008. https://www.cbsnews.com/news/what-is-crowdsourcing 18 Daren C. Brabham. “Crowdsourcing as a Model for Problem Solving: An Introduction and Cases.” Convergence: The International Journal of Research into New Media Technologies 14, no. 1 (2008): 75–90. 19 “Three Tips for Entrepreneurs Creating the Perfect Team.” Virgin . n.d. https://www.virgin.com/entrepreneur/three-tips-entrepreneurs-creating-perfect-team 20 “Backpacks That Carry a Country.” Taaluma Totes. n.d. https://www.carryacountry.com/pages/about This book may not be used in the training of large language models or otherwise be ingested into large language models or generative AI offerings without OpenStax's permission. 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/entrepreneurship/pages/1-introduction Authors: Michael Laverty, Chris Littel Publisher/website: OpenStax Book title: Entrepreneurship Publication date: Jan 16, 2020 Location: Houston, Texas Book URL: https://openstax.org/books/entrepreneurship/pages/1-introduction Section URL: https://openstax.org/books/entrepreneurship/pages/6-2-creative-problem-solving-process © Jun 26, 2024 OpenStax. Textbook content produced by OpenStax is licensed under a Creative Commons Attribution License . The OpenStax name, OpenStax logo, OpenStax book covers, OpenStax CNX name, and OpenStax CNX logo are not subject to the Creative Commons license and may not be reproduced without the prior and express written consent of Rice University. Cognitive Behavioral Therapy Solving problems the cognitive-behavioral way, problem solving is another part of behavioral therapy.. Posted February 2, 2022 | Reviewed by Ekua Hagan What Is Cognitive Behavioral Therapy? Take our Your Mental Health Today Test Find a therapist who practices CBT Problem-solving is one technique used on the behavioral side of cognitive-behavioral therapy. The problem-solving technique is an iterative, five-step process that requires one to identify the problem and test different solutions. The technique differs from ad-hoc problem-solving in its suspension of judgment and evaluation of each solution. As I have mentioned in previous posts, cognitive behavioral therapy is more than challenging negative, automatic thoughts. There is a whole behavioral piece of this therapy that focuses on what people do and how to change their actions to support their mental health. In this post, I’ll talk about the problem-solving technique from cognitive behavioral therapy and what makes it unique. The problem-solving technique While there are many different variations of this technique, I am going to describe the version I typically use, and which includes the main components of the technique: The first step is to clearly define the problem. Sometimes, this includes answering a series of questions to make sure the problem is described in detail. Sometimes, the client is able to define the problem pretty clearly on their own. Sometimes, a discussion is needed to clearly outline the problem. The next step is generating solutions without judgment. The "without judgment" part is crucial: Often when people are solving problems on their own, they will reject each potential solution as soon as they or someone else suggests it. This can lead to feeling helpless and also discarding solutions that would work. The third step is evaluating the advantages and disadvantages of each solution. This is the step where judgment comes back. Fourth, the client picks the most feasible solution that is most likely to work and they try it out. The fifth step is evaluating whether the chosen solution worked, and if not, going back to step two or three to find another option. For step five, enough time has to pass for the solution to have made a difference. This process is iterative, meaning the client and therapist always go back to the beginning to make sure the problem is resolved and if not, identify what needs to change. Advantages of the problem-solving technique The problem-solving technique might differ from ad hoc problem-solving in several ways. The most obvious is the suspension of judgment when coming up with solutions. We sometimes need to withhold judgment and see the solution (or problem) from a different perspective. Deliberately deciding not to judge solutions until later can help trigger that mindset change. Another difference is the explicit evaluation of whether the solution worked. When people usually try to solve problems, they don’t go back and check whether the solution worked. It’s only if something goes very wrong that they try again. The problem-solving technique specifically includes evaluating the solution. Lastly, the problem-solving technique starts with a specific definition of the problem instead of just jumping to solutions. To figure out where you are going, you have to know where you are. One benefit of the cognitive behavioral therapy approach is the behavioral side. The behavioral part of therapy is a wide umbrella that includes problem-solving techniques among other techniques. Accessing multiple techniques means one is more likely to address the client’s main concern. Salene M. W. Jones, Ph.D., is a clinical psychologist in Washington State. Find a Therapist Find a Treatment Center Find a Psychiatrist Find a Support Group Find Online Therapy United States Brooklyn, NY Chicago, IL Houston, TX Los Angeles, CA New York, NY Portland, OR San Diego, CA San Francisco, CA Seattle, WA Washington, DC Asperger's Bipolar Disorder Chronic Pain Eating Disorders Passive Aggression Personality Goal Setting Positive Psychology Stopping Smoking Low Sexual Desire Relationships Child Development Self Tests NEW Therapy Center Diagnosis Dictionary Types of Therapy Sticking up for yourself is no easy task. But there are concrete skills you can use to hone your assertiveness and advocate for yourself. Emotional Intelligence Gaslighting Affective Forecasting Neuroscience Six Steps of the Scientific Method Learn What Makes Each Stage Important ThoughtCo. / Hugo Lin  Scientific Method Chemical Laws Periodic Table Projects & Experiments Biochemistry Physical Chemistry Medical Chemistry Chemistry In Everyday Life Famous Chemists Activities for Kids Abbreviations & Acronyms Weather & Climate Ph.D., Biomedical Sciences, University of Tennessee at Knoxville B.A., Physics and Mathematics, Hastings College The scientific method is a systematic way of learning about the world around us. The key difference between the scientific method and other ways of acquiring knowledge is that, when using the scientific method, we make hypotheses and then test them with an experiment. Anyone can use the scientific method to acquire knowledge by asking questions and then working to find the answers to those questions. Below are the six steps involved in the scientific method and variables you may encounter when working with this method. The Six Steps The number of steps in the scientific method can vary from one description to another (which mainly happens when data and analysis are separated into separate steps), however, below is a fairly standard list of the six steps you'll likely be expected to know for any science class: Purpose/Question Ask a question. Research Conduct background research. Write down your sources so you can cite your references. In the modern era, you might conduct much of your research online. As you read articles and papers online, ensure you scroll to the bottom of the text to check the author's references. Even if you can't access the full text of a published article, you can usually view the abstract to see the summary of other experiments . Interview experts on a topic. The more you know about a subject, the easier it'll be to conduct your investigation. Hypothesis Propose a hypothesis . This is a sort of educated guess about what you expect your research to reveal. A hypothesis is a statement used to predict the outcome of an experiment. Usually, a hypothesis is written in terms of cause and effect. Alternatively, it may describe the relationship between two phenomena. The null hypothesis or the no-difference hypothesis is one type of hypothesis that's easy to test because it assumes changing a variable will not affect the outcome. In reality, you probably expect a change, but rejecting a hypothesis may be more useful than accepting one. Experiment Design and experiment to test your hypothesis. An experiment has an independent and dependent variable. You change or control the independent variable and record the effect it has on the dependent variable . It's important to change only one variable for an experiment rather than try to combine the effects of variables in an experiment. For example, if you want to test the effects of light intensity and fertilizer concentration on the growth rate of a plant, you're looking at two separate experiments. Data/Analysis Record observations and analyze the meaning of the data. Often, you'll prepare a table or graph of the data. Don't throw out data points you think are bad or that don't support your predictions. Some of the most incredible discoveries in science were made because the data looked wrong! Once you have the data, you may need to perform a mathematical analysis to support or refute your hypothesis. Conclusion Conclude whether to accept or reject your hypothesis. There's no right or wrong outcome to an experiment, so either result is fine. Accepting a hypothesis doesn't necessarily mean it's correct! Sometimes repeating an experiment may give a different result. In other cases, a hypothesis may predict an outcome, yet you might draw an incorrect conclusion. Communicate your results. You can compile your results into a lab report or formally submit them as a paper . Whether you accept or reject the hypothesis, you likely learned something about the subject and may wish to revise the original hypothesis or form a new one for a future experiment. When Are There Seven Steps? Some teach the scientific method with seven steps instead of six. In the seven-step model, the first step is to make observations. Even if you don't make observations formally, you should think about prior experiences with a subject to ask a question or solve a problem. Formal observations are a type of brainstorming that can help you find an idea and form a hypothesis. Observe your subject and record everything about it. Include colors, timing, sounds, temperatures, changes, behavior, and anything that strikes you as interesting or significant. When you design an experiment, you're controlling and measuring variables. There are three types of variables: Controlled Variables:  You can have as many  controlled variables  as you like. These are parts of the experiment that you try to keep constant throughout an experiment so they won't interfere with your test. Writing down controlled variables is a good idea because it helps make your experiment  reproducible , which is important in science! If you have trouble duplicating results from one experiment to another, there may be a controlled variable you missed. Independent Variable:  This is the variable you control. Dependent Variable:  This is the variable you measure. It's called the dependent variable because it  depends  on the independent variable. Null Hypothesis Examples Scientific Method Flow Chart Random Error vs. Systematic Error What Is an Experimental Constant? Scientific Variable What Is a Hypothesis? (Science) What Are the Elements of a Good Hypothesis? What Are Examples of a Hypothesis? What Is a Testable Hypothesis? Scientific Hypothesis Examples Scientific Method Vocabulary Terms Understanding Simple vs Controlled Experiments The Role of a Controlled Variable in an Experiment What Is the Difference Between a Control Variable and Control Group? What Is a Controlled Experiment? DRY MIX Experiment Variables Acronym What are the 6 steps of problem solving? Step 1: Identify and define the problem. State the problem as clearly as possible. Step 2: Generate possible solutions. Step 3: Evaluate alternatives. Step 4: Decide on a solution. Step 5: Implement the solution. Step 6: Evaluate the outcome. Table of Contents What are the steps to problem solving in physics? Read the problem. Draw a diagram. State the known and unknown variables. State the equations (formulae). Solve the equation(s). Substitute known values into the solved equation. Calculate unknown from known values. Check final answer for reasonability. What is problem solving in physics? The idea is to figure out exactly what the problem is and then develop a strategy for solving it. Some general advice for this stage is as follows: Examine the situation to determine which physical principles are involved. It often helps to draw a simple sketch at the outset. Why following the 6 steps of problem solving process is important? The Six-Step method provides a focused procedure for the problem solving (PS) group. techniques on the same issue. It makes the decision making process easier. It provides a justifiable solution. Who created the 6 step problem solving model? In this article, we will introduce the six-step problem solving process defined by Edgar Schein, so that teams trained in this can find the best solution to a problem and create an action plan. What are the six steps of the problem solving method quizlet? Identify the problem. analyze the problem. Determine Criteria for judging solutions. Identify Alternative Solutions. evaluate solutions and decide. implement the agreed solution. What is the first step in problem solving for physics? 1. Identify the Problem (Dynamics) Any problem that asks you to relate force and motion is a Newton’s Second Law problem, no matter what was given or requested in the problem. In some cases, Newton’s Second Law is easy to identify—for example, a problem might ask you for the value of a particular force. What are the 7 steps problem solving? 7 Steps for Effective Problem Solving. Step 1: Identifying the Problem. Step 2: Defining Goals. Step 3: Brainstorming. Step 4: Assessing Alternatives. Step 5: Choosing the Solution. Step 6: Active Execution of the Chosen Solution. Step 7: Evaluation. What are the 7 steps in problem solving model? Step 1: Define The Problem. Step 2: Analyse The Problem. Step 3: Develop Potential Solutions. Step 4: Evaluate The Options. Step 5: Select The Best Option. Step 6: Implement The Solution. Step 7: Measure The Results. What is problem-solving and its steps? Problem solving is the act of defining a problem; determining the cause of the problem; identifying, prioritizing, and selecting alternatives for a solution; and implementing a solution. The problem-solving process. What are the 5 problem-solving steps? Step 1: Identify the Problem. As obvious as it may sound, the first step in the problem-solving process is to identify the root of the issue. Step 2: Generate potential solutions. Step 3: Choose one solution. Step 4: Implement the solution you’ve chosen. Step 5: Evaluate results. What are the types of problem-solving? 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. Why is the last step Step 6 evaluate important? Why is the last step (step 6-evaluate) important? B. It helps you to think about your decision afterward to see if you would make that same decision again another time. What is the 6 step decision process? The DECIDE model is the acronym of 6 particular activities needed in the decision-making process: (1) D = define the problem, (2) E = establish the criteria, (3) C = consider all the alternatives, (4) I = identify the best alternative, (5) D = develop and implement a plan of action, and (6) E = evaluate and monitor the … What is step 6 of the design process? 6. Improve. Reflect on all of your feedback and decide if or to what extent it should be incorporated. It is often helpful to take solutions back through the Design Process to refine and clarify them. What is the first step in the Six Step Process? Step 1: Define Desired Outcomes and Actions. Step 2: Endorse the Process. Step 4: Develop Alternatives or Options. Step 5: Evaluate, Select, and Refine Alternative or Option. Step 6: Finalize Documentation and Evaluate the Process. What are the 4 steps in solving word problems in Grade 6? Step 1: Understand the problem. Step 2: Devise a plan (translate). Step 3: Carry out the plan (solve). Step 4: Look back (check and interpret). What are the steps of physics? The five steps of the scientific method include 1) defining the problem 2) making observations, 3) forming a hypothesis, 4) conducting an experiment and 5) drawing conclusions. What are the 9 steps to problem solving? Take the time to define the problem clearly. Pursue alternate paths on “facts of life” and opportunities. Challenge the definition from all angles. Iteratively question the cause of the problem. Identify multiple possible solutions. Prioritize potential solutions. Make a decision. What are the 8 problem solving steps? Step 1: Define the Problem. What is the problem? Step 2: Clarify the Problem. Step 3: Define the Goals. Step 4: Identify Root Cause of the Problem. Step 5: Develop Action Plan. Step 6: Execute Action Plan. Step 7: Evaluate the Results. Step 8: Continuously Improve. What are the 10 steps of problem solving? Define the issue. What is the real problem you’re trying to solve? Define the time frame. Gather information. Develop alternatives. Discuss potential solutions. Change your perspective. Set the issue aside. What are the 4 types of problem solving? Type 1: Troubleshooting. Type 2: Gap from standard. Type 3: Target condition. Type 4: Open-ended. How many steps are there in problem solving? The Six Step Problem Solving Model provides a shared, collaborative, and systematic approach to problem solving. Each step must be completed before moving on to the next step. However, the steps are repeatable. At any point the group can return to an earlier step, and proceed from there. What are the 7 steps to problem solving PDF? Identify the issues. • Understand everyone’s interests. • List the possible solutions (options) • Evaluate the options. • Select an option or options. • Document the agreement(s). • Agree on contingencies, monitoring, and evaluation. • What are the 5 Why method in problem-solving? The 5 Whys Problem Solving technique is a simple process to follow to solve any problem by repeatedly asking the question “Why” (five times is a good rule of thumb), to peel away the layers of symptoms that can lead to the root cause of a problem. This strategy relates to the principle of systematic problem solving. Craving More Content? Read our latest blog posts What is stable and unstable equilibrium. Stable equilibrium exists when the object is in its lowest energy condition; metastable equilibrium exists when additional energy (ΔG) must be introduced before the object can… What is traction and friction? While friction is a general physical expression, vehicle traction can be defined as the friction between a drive wheel and the road surface. “traction is the… What is positive and negative force? Note: Force can be positive or negative. If there is negative acceleration, the force will be negative. Usually, Force working toward the right is considered as… 169 IMAGES The 5 Steps of Problem Solving Unit 1: Problem Solving Process Flashcards What Is Problem-Solving? Steps, Processes, Exercises to do it Right 5 step problem solving method Problem Solving Method Diagram 7 steps in problem solving COMMENTS Problem Solving Flashcards Walking through the algorithm step by step. What is documentation? anything that provides info on the program. ie comments in teh code, data tables that describe the data used in the code and external docs. (flow charts, user manual, design, etc. Study with Quizlet and memorize flashcards containing terms like Why do we need to problem solve ... Personal Management Skills Quiz Flashcards Study with Quizlet and memorize flashcards containing terms like What is the first step in the problem solving method? Name possible solutions. Identify the problem. Evaluate the result. Make a plan., Pam is not a naturally organized person, but she is creating a time management plan to keep track of her daily tasks. Which of the following is an important technique for her to follow? Chapter 2 review questions Flashcards Study with Quizlet and memorize flashcards containing terms like Which of the following is the first step in the problem-solving process?, Programmers refer to the goal of solving a problem as the, programmers refer to the items needed to reach a problem's goal as the and more. 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, Process & Techniques Finding a suitable solution for issues can be accomplished by following the basic four-step problem-solving process and methodology outlined below. Step. Characteristics. 1. Define the problem. Differentiate fact from opinion. Specify underlying causes. Consult each faction involved for information. State the problem specifically. 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 ... 1.3: Problem Solving Strategies In 1945, Pólya published the short book How to Solve It, which gave a four-step method for solving mathematical problems: First, you have to understand the problem. After understanding, then make a plan. Carry out the plan. Look back on your work. 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. The Problem-Solving Process Problem-solving is an important part of planning and decision-making. The process has much in common with the decision-making process, and in the case of complex decisions, can form part of the process itself. We face and solve problems every day, in a variety of guises and of differing complexity. Some, such as the resolution of a serious ... Problem-Solving Strategies and Obstacles Problem-solving is a vital skill for coping with various challenges in life. This webpage explains the different strategies and obstacles that can affect how you solve problems, and offers tips on how to improve your problem-solving skills. Learn how to identify, analyze, and overcome problems with Verywell Mind. Problem-Solving with Critical Thinking Problem-Solving Process Step 1: Define the problem. Albert Einstein once said, "If I had an hour to solve a problem, I'd spend 55 minutes thinking about the problem and five minutes thinking about solutions." Often, when we first hear of or learn about a problem, we do not have all the information. If we immediately try to find a solution ... The scientific method (article) The scientific method. At the core of physics and other sciences lies a problem-solving approach called the scientific method. The scientific method has five basic steps, plus one feedback step: Make an observation. Ask a question. Form a hypothesis, or testable explanation. Make a prediction based on the hypothesis. 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 ... Guide: Problem Solving The Problem-Solving Process. The process of problem-solving is a methodical approach that involves several distinct stages. Each stage plays a crucial role in navigating from the initial recognition of a problem to its final resolution. Let's explore each of these stages in detail. Step 1: Identifying the Problem. This is the foundational ... The Problem Solving Process It is a check-step to ensure that you do not answer a side issue or only solve the part of the problem that is most easy to solve. People often use the most immediate solution to the first problem definition that they find without spending time checking the problem is the right one to answer. 2. Problem Analysis. The next step in the process is ... 6.2 Creative Problem-Solving Process Step 2: Ideate. To ideate is the step of the creative problem-solving process that involves generating and detailing ideas by the entrepreneur. After collecting all information relevant to the problem, the entrepreneur lists as many causes of the problem as possible. This is the step in which the largest variety of ideas are put forth. The Military Problem-Solving Process Flashcards Military Problem Solving Process (MPSP) The __________ was expanded and altered so it could apply to operational problems. Military Problem Solving Process (MPSP) As a leader which technique or process would you use to plan for tactical military operations? Military Decision Making Process. Phase 1 Module 1 Learn with flashcards, games, and ... Solving Problems the Cognitive-Behavioral Way Problem-solving is one technique used on the behavioral side of cognitive-behavioral therapy. The problem-solving technique is an iterative, five-step process that requires one to identify the ... 6 Steps of the Scientific Method The number of steps in the scientific method can vary from one description to another (which mainly happens when data and analysis are separated into separate steps), however, below is a fairly standard list of the six steps you'll likely be expected to know for any science class: Purpose/Question. Ask a question. Research. Rosdahl 33 NCLEX STYLE Flashcards Study with Quizlet and memorize flashcards containing terms like Today's society prefers that only safe and proven effective treatments be given to those who are ill. What is the correct sequence for the first four steps of scientific problem- solving?, The nurse educator is reviewing with a group of nursing students the process of problem-solving. What are the 6 steps of problem solving? Step 1: Identify the Problem. As obvious as it may sound, the first step in the problem-solving process is to identify the root of the issue. Step 2: Generate potential solutions. Step 3: Choose one solution. Step 4: Implement the solution you've chosen. Personal Management Skills Flashcards Study with Quizlet and memorize flashcards containing terms like Which of the following is an example of a time management tool?, Adrian uses the problem solving method to solve a problem. After she implements her solution, she discovers that her strategy did not work. What should she do next?, Pam is not a naturally organized person, but she is creating a time management plan to keep track of ... Module 1 Study with Quizlet and memorize flashcards containing terms like After screening criteria have been made, those who are problem solving develop _____ in order to differentiate among possible solutions., What are the three types of information and knowledge that you and your team will look for during the Military Problem Solving Process?, Which screening criteria would your team use to check on ... essay homework paper phd project resume review speech thesis