Potential
I would say potential and kinetic true true
Kinetic Energy+Potential Energy=Mechanical Energy (KE+PE=ME)
Potential energy is the energy contained in the position of an object, so object hanging on a tree would be potential energy.
It has potential energy but when it is in movement it will possess kinetic energy
As an object gains kinetic energy (movement), its potential energy decreases. This is because the energy is being converted from potential energy to kinetic energy. The total mechanical energy of the object (kinetic energy + potential energy) remains constant if no external forces are acting on the object.
The energy for muscle contractions ultimately comes from chemical reactions in the body that convert stored chemical potential energy into kinetic energy of the muscles, and subsequently of the jump. However, not all of that chemical energy is successfully converted into kinetic energy. Some is dissipated as heat, and a significant amount is lost into the ground.
Jumping on a trampoline involves converting potential energy from your initial height to kinetic energy as you descend towards the surface of the trampoline. When you push off the trampoline, the kinetic energy is then converted back to potential energy as you reach your maximum height before descending again. Energy is constantly being converted between potential and kinetic forms as you continue to jump.
When you bounce on a trampoline, the energy conversion that occurs is from potential energy (stored energy when you are at the highest point of the bounce) to kinetic energy (energy of motion as you descend and ascend). This back and forth conversion between potential and kinetic energy allows you to bounce on the trampoline.
When jumping on a trampoline, the potential energy stored in your muscles is transformed into kinetic energy as you leave the trampoline surface. As you reach the apex of your jump, the kinetic energy is converted back into potential energy due to your change in height. This cycle of energy transformation continues as you bounce up and down on the trampoline.
When bouncing on a trampoline, the initial potential energy from being raised up is transformed into kinetic energy as you descend, and then back into potential energy as you push off the trampoline to go back up again. This process continues, with energy being alternately converted between potential and kinetic energy.
When you are jumping on a trampoline, as you push off the surface, your potential energy is converted into kinetic energy as you rise and gain speed. At the peak of your jump, your kinetic energy is fully converted back into potential energy. As you descend, potential energy is once again converted into kinetic energy until you push off again.
When bouncing on a trampoline, the potential energy of the person is converted into kinetic energy as they descend towards the trampoline. Upon contact, this kinetic energy is momentarily stored in the trampoline material as potential energy before being transferred back into kinetic energy as the person rebounds back up.
When bouncing on a trampoline, potential energy is converted to kinetic energy as you jump up, and vice versa as you descend. The springs on the trampoline also store and release elastic potential energy as they compress and expand.-friction and air resistance also play a role in converting kinetic energy into other forms of energy.
When someone is jumping on a trampoline, they primarily have potential energy at the highest point of their jump when they are at their maximum height. This potential energy is then converted to kinetic energy as they descend back down towards the trampoline.
When a person is jumping on a trampoline, they have potential energy at the highest point of their jump, which is converted to kinetic energy when they are moving up and down. This energy conversion continues as they jump, with potential energy being converted to kinetic energy and back again.
Oh, dude, when the girl jumps on the trampoline, she's converting her potential energy into kinetic energy. Potential energy is like stored energy, you know, like when you have a bag of chips waiting to be opened. And kinetic energy is the energy of motion, like when you finally open that bag of chips and start munching away. So yeah, she's basically turning her potential energy into kinetic energy as she bounces up and down on that trampoline.
The 'bounce' of a trampoline is generated by the movement of the trampoline springs, situated around the frame of the trampoline and connected to the trampoline bed. The more trampoline springs that a trampoline has, the better bounce the trampoline will generate. The quality and effectiveness of a trampolines' bounce is also impacted by the amount of movement there is on the bed, more weight again generates more bounce.