Question: A kid is jumping on their trampoline. The kid leaves the trampoline at a velocity of 5.5 m/s. What is the max height the child will reach above the trampoline?

Answer: Final answer: Using the conservation of energy principle, the maximum height reached above the trampoline when the child leaves at 5.5 m/s is calculated to be 1.54 meters.

Calculating the Maximum Height of a Kid Jumping on a Trampoline

12 Dec 2023

Explanation:

To find the maximum height that a kid will reach above the trampoline when leaving it with a velocity of 5.5 m/s, we can use the principle of conservation of energy. The initial kinetic energy at the moment of leaving the trampoline will be converted into potential energy at the highest point of the jump, where the velocity becomes zero just before descending back down.

The formula for kinetic energy (KE) is KE = 0.5 Ã mass Ã velocity² and the formula for gravitational potential energy (PE) is PE = mass Ã gravity Ã height. Assuming the mass of the child is constant and gravity is 9.81 m/sÂ², at the highest point all kinetic energy will be converted into potential energy, so we can equate both energies and solve for height:

0.5 Ã m Ã (5.5 m/s)² = m Ã 9.81 m/sÂ² Ã h

h = (0.5 Ã (5.5 m/s)²) / 9.81 m/sÂ²

h = 1.54 m

Therefore, the maximum height the child will reach above the trampoline is 1.54 meters.

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