Question

A student conducts an experiment to test how the temperature of a ball affects its bounce height. The same ball is used for each test, and the ball is dropped from the same height each time. What is the independent variable? the drop height of the ball the type of ball the temperature of the ball the bounce height of the ball

Answer 1

Answer:

Problem:

Which of the following balls has the highest elasticity: a rubber ball, a marble, or a ping pong ball?

Materials

Wooden board (a cutting board or a piece of scrap plywood will work great)

Yardstick, meter stick or tape measure with centimeters

Rubber bouncy ball

Marble

Ping pong ball

Table or wall

Tape

Procedure:

Set the wooden board flat on the ground next to a wall or table.

Tape the meter stick to the wall or table as shown. Make sure that the meter stick starts with 0 is at the bottom. Before conducting this experiment, use this time to formulate your hypothesis. Which ball do you think will bounce the highest? Why?

Bouncing Ball Physics Setup Diagram

Have a partner drop the rubber ball from the 25 centimeter mark and record the height of the first bounce in a table like the one below. Repeat 5 times and record bounce height for each of your 5 trials. It’s important to drop the ball and not throw it downward. Why do you think this is?

Type of Ball

Drop Height

Bounce Height

Trial 1

Trial 2

Trial 3

Trial 4

Trial 5

Average

Rubber

25 cm

Ping Pong

25 cm

Marble

25 cm

Rubber

50 cm

Ping Pong

50 cm

Marble

50 cm

Rubber

75 cm

Ping Pong

75 cm

Marble

75 cm

Average the recorded bounce heights from each trial together to find the average bounce height for the rubber ball. Here’s how to calculate an average:

A formula demonstrating how to take the average bounce height of all five trials. Add the heights together and divide by five to get the average.

Repeat steps 3 and 4 for the marble.

Repeat steps 3 and 4 for the ping pong ball

Have a partner drop the rubber ball 5 times from the 50 centimeter mark and record the height in a table.

Average the recorded bounce heights from each 50 cm trial together to find the average bounce height for the rubber ball.

Repeat steps 7 and 8 for the marble.

Repeat steps 7 and 8 for the ping pong ball.

Have a partner drop the rubber ball 5 times from the 75 centimeter mark and record the height in a table.

Average the recorded bounce heights from each 75 cm trial together to find the average bounce height for the rubber ball. How do you think the height at which the ball was dropped affects how high it bounces? Why? You should see a pattern emerging!

Repeat steps 11 and 12 for the marble.

Repeat steps 11 and 12 for the ping pong ball.

Results:

On average, the rubber bouncy ball will bounce the highest, followed by the ping pong ball. The marble will bounce the least high.

Explanation:

When all three balls are dropped from the same height, the rubber ball will bounce the highest because it has the greatest elasticity. When the rubber ball hits the ground it gets compressed, or squished, and because it is very elastic, it quickly returns to its original shape. When it does this, it pushes back on the ground shoots back up into the air.

The marble, which is the hardest out of the three balls, has the least elasticity, so it does not bounce as high. It doesn’t get squished when it lands, so it has a harder time changing its direction from down to up. The balls dropped from 75 centimeters will bounce higher than those dropped from 50 centimeters, and the balls in the 50 centimeter trials will bounce higher than those in the 25 centimeter trials. This is because the higher the starting height of the ball, the higher the ball’s potential energy. An object has potential energy because of its position. If an object is going to be dropped from high up in the air, it has lots of potential energy because the earth’s gravity has plenty of time to accelerate, or speed up, the ball when you let go of it—and the longer an object falls, the faster it gets. So what happens to potential energy when a ball is dropped? It turns into kinetic energy, or the energy an object has when it is moving. The faster an object moves, the higher its kinetic energy. Which object do you think has a higher kinetic energy: a car or an airplane?

Because gravity has the most time to do its job when the balls are dropped from 75 centimeters, these balls have the most kinetic energy by the time they hit the ground. When the ball hits the ground, all that kinetic energy has to go somewhere. A lot of it goes back into the ball, giving it more force to pop back up into the air—so the higher the potential energy, the higher the kinetic energy, and the higher the kinetic energy, the higher the bounce