Sliding Down a Slope

When is friction useful?

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Friction forces can be deliberately harnessed, for example in the design of shoe soles to prevent falls on slippery surfaces. The idea behind ice skates is to keep friction as low as possible so they’ll glide over the ice.

In which situations is friction desirable? When is it not desirable?

Build this *Tilting Platform*.

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It’ll help you determine the coefficient of friction of different objects.

Do a test run.

EV3 Classroom-Programs 2-4-program en-us
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Place the model on a solid and level surface. If the surface isn’t level, the angles and the associated coefficient of friction will be incorrect. Run the program and wait until the Touch Sensor is shown on the Display. Place the object to be studied in the center of the ramp, at the end. Press the Touch Sensor on Port 1 to start the test run. Press it again as soon as the object starts to slide.

Does the ramp slowly rise during the test run? Are the angle and the coefficient of friction displayed?

Using the Gyro Sensor

The Gyro Sensor must be completely motionless while it’s being plugged into the EV3 Brick and during start-up of the EV3 Brick. If the Gyro Sensor’s angle readings change while the ramp is still, unplug the sensor and plug it back in.

Record your results.

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Record the experiment number, angle, and coefficient of friction in a testing table. Make sure to leave enough space to record other observations.

Perform the experiment using the tire, and repeat the experiment for each of the other test objects.

Running the Experiment

Keep the following tips in mind as you run your experiment:

  • The angle of the ramp as well as the coefficient of friction will be shown on the Display.
  • Perform the experiment at least three times with each test object and use the average values to ensure the most reliable results.

Summarize your results.

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Use the average coefficient of friction for each of the objects and organize them according to their structural properties (e.g., shape, composition, surface characteristics).

Can you explain why some objects begin to slip at small angles and others at large angles? Do the structural properties of your objects help explain the results you obtained from your experiments?

How did you do?

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What did you do well? Is there anything you could’ve done better?

Cool! Now you know how structural properties relate to friction. Let’s dive into the next lesson!