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 To solve a problem, you use what you already know to figure out something you want to know.

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Presentation on theme: " To solve a problem, you use what you already know to figure out something you want to know."— Presentation transcript:

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2  To solve a problem, you use what you already know to figure out something you want to know.

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4  What is the problem asking for?  Figure out exactly what variables or values need to be in the answer.  Example: A 6-gram marble, placed in a graduated cylinder of water, raises the water from 30 mL to 32 mL. Calculate the marble’s volume and density. › What is the problem asking for? › Volume and density

5  What information are you given?  Sometimes this includes numbers or values. Other times it includes descriptive information to interpret.  Example: A 6-gram marble, placed in a graduated cylinder of water, raises the water from 30 mL to 32 mL. Calculate the marble’s volume and density. › What are you given? › The mass of the marble is 6g. The water level was raised from 30mL to 32mL.

6  What relationships exist between what you are asked to find and what you are given?  Example: A 6-gram marble, placed in a graduated cylinder of water, raises the water from 30 mL to 32 mL. Calculate the marble’s volume and density. › The relationship for density mass and volume is D = m/V.

7  Combine the relationships with what you know to find what you are asked for.  Once you complete steps 1 through 3, you will be able to see how to solve most problems.  Example: A 6-gram marble, placed in a graduated cylinder of water, raises the water from 30 mL to 32 mL. Calculate the marble’s volume and density. › Volume: 32mL – 30mL = 2mL › Density = 6g/2mL = 3g/mL

8  Unlike “formula problems,” design problems have many correct solutions limited only by your creativity, ingenuity, skill, and patience.  Example: Create a container that will protect a raw egg from breaking when dropped 10 meters onto a sidewalk.

9  1. Write down everything your solution needs to accomplish.  2. Write down every constraint that must also be met. Constraints are limits on cost, weight, time, materials, size, or other things.  3. Think up an idea that might work. Talking with others, doing research, and trying things out are all ways to help.  4. Follow the design cycle.

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