The Ultimate Guide to Understanding Kinetic Energy in Gymnastics

When is the kinetic energy the largest during each complete jump cycle of a gymnast on a trampoline?

a) when the gymnast's center of mass is at the lowest point of its motion

b) when the gymnast's center of mass is at the highest point of its motion

c) when the gymnast's feet are barely off the surface of the trampoline

d) when the gymnast's center of mass is half-way between the lowest and highest points of its motion

Answer:

The option that best describes when the kinetic energy is the largest during each complete jump cycle is B) When the gymnast's center of mass (c.m.) is at the highest point of its motion.

Kinetic energy is the type of energy that an object possesses due to its motion. When a gymnast jumps on a trampoline, the potential energy is transformed into kinetic energy.

During each complete jump cycle, the kinetic energy will be largest when the gymnast's center of mass is at the highest point of its motion. This is the point where all the potential energy is converted into kinetic energy.

As the gymnast goes down to the lowest point of the trampoline, the potential energy is transformed into kinetic energy, reaching its minimum where the potential energy is zero. When the gymnast bounces back up, the kinetic energy is transformed back into potential energy.

Therefore, to maximize kinetic energy during each jump cycle, the gymnast's center of mass should be at the highest point of its motion.

← Exciting facts about light and cds crystal interaction Probability mass function pmf of bernoulli distribution →