Problem Solving

🧠 Big problems become easy when you break them into small steps. Planning a birthday party seems overwhelming. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Sometimes you need to SEE a problem to solve it. Draw a picture, make a diagram, or create a map. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Start with the answer you WANT, then figure out the steps to get there. Want to be ready for school by 8am? Work backwards: leave at 7:50, eat at 7:30, get dressed at 7:15, wake up at 7:00. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Many problems have patterns hidden inside them. If you can find the pattern, you can predict the answer without solving every single step. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Before you act, play 'What If?' in your mind. 'What if I try this? What would happen? What if that doesn't work?' Mental simulation prevents real-world mistakes. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Designers solve problems in 5 steps: 1) Empathize (understand the user) 2) Define (state the problem) 3) Ideate (brainstorm) 4) Prototype (build a quick model) 5) Test (try it). Let's use this process! Understanding the design thinking process is one of the building blocks of strong thinking. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Here's a problem, but you can only use THREE items to solve it. Constraints force CREATIVE thinking. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 A headache is a symptom. The cause might be dehydration, stress, or lack of sleep. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 You're locked in a lab! Four stations, four problems, four keys. Station 1: Decode the message. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Your school uses too many plastic bottles. Using the problem-solving steps, come up with a plan to reduce plastic waste. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 You solved the problem, but can you solve it BETTER? Faster? Cheaper? Easier? Optimization is about making already-good solutions even better. Engineers do this constantly. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Teams compete to solve problems fastest and most creatively. Each round uses a different problem-solving strategy: decomposition, reverse engineering, pattern finding, or design thinking. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Your tablet won't connect to WiFi. Don't panic! Systematic troubleshooting: 1) Is WiFi on? 2) Is the password right? 3) Is the router working? 4) Has it worked before? Step-by-step eliminates causes. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Problem: Your pet hamster keeps escaping. Invent a solution using only household materials. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Three teams solve the same problem three different ways. Which solution is best? Why? Sometimes there are multiple good solutions, and comparing them helps you find the BEST one. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Draw a decision tree for your problem. Each branch is a choice. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Analyze a famous failure (the Titanic, a product flop, a game you lost). What went wrong? What could have been done differently? Failures contain the most valuable lessons. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 You have 5 minutes to solve this problem. Time pressure changes how you think — you need to be faster, more decisive, and willing to go with 'good enough' instead of 'perfect. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 In pairs, design a new playground for your school. You must agree on the design, address safety, fun, and cost. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!

🧠 Which problem-solving strategies do YOU use most? Which ones should you practice more? Building awareness of your toolkit makes you a more versatile problem solver. Understanding reflecting on personal strengths is one of the building blocks of strong thinking. Here's how to do it: 1. Look carefully at the problem. What do you see? 2. Think about what you already know. Does this remind you of something? 3. Try an answer! It's totally okay to be wrong — that's how we learn. 4. Check: did it work? If not, try something else! You're building your thinking muscles. The more you practice, the stronger they get!