Lab: Kinetic Energy Answers

Do you have a copy of the Student Guide for this lab, which includes the data tables?

When the mass of the bottle is 0.125 kg, the KE is kg m2/s2.

When the mass of the bottle is 0.125 kg, the average maximum height of the beanbag is m.

When the speed of the bottle is 2 m/s, the KE is kg m2/s2.

To achieve a speed of 2 m/s, the bottle must be dropped at m.

When the speed of the bottle is 2 m/s, the average maximum height of the beanbag is m.

Review Tables A and B in your Student Guide. Did you record all data throughout the virtual lab experiment?

When the mass of the bottle is 0.250 kg, the KE is kg m2/s2.

When the mass of the bottle is 0.250 kg, the average maximum height of the beanbag is m.

When the speed of the bottle is 3 m/s, the KE is kg m2/s2.

To achieve a speed of 3 m/s, the bottle must be dropped at m.

When the speed of the bottle is 3 m/s, the average maximum height of the beanbag is m.

When the mass of the bottle is 0.375 kg, the KE is kg m2/s2.

When the mass of the bottle is 0.375 kg, the average maximum height of the beanbag is m.

When the speed of the bottle is 4 m/s, the KE is kg m2/s2.

To achieve a speed of 4 m/s, the bottle must be dropped at m.

When the speed of the bottle is 4 m/s, the average maximum height of the beanbag is m.

When the mass of the bottle is 0.500 kg, the KE is kg m2/s2.

When the mass of the bottle is 0.500 kg, the average maximum height of the beanbag is m.

When the speed of the bottle is 5 m/s, the KE is kg m2/s2.

To achieve a speed of 5 m/s, the bottle must be dropped at m.

When the speed of the bottle is 5 m/s, the average maximum height of the beanbag is m.

When the speed of the bottle is 6 m/s, the KE is kg m2/s2.

To achieve a speed of 6 m/s, the bottle must be dropped at m.

When the speed of the bottle is 6 m/s, the average maximum height of the beanbag is m.