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Potential Energy
a bike coming down hill has graventatinal energy.
My mom!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
idk
Turning potential energy into kinetic energy. As you ride down the hill the potential energy you stored in your mass on the way up is converted into kinetic energy. That's why you speed up as you go down a hill and also why it's harder to go uphill.
No. On top of the hill the bike would have potential energy. If released, by letting the bike roll downhill, it'd turn into kinetic energy as the bike picks up speed.
Potential Energy
a bike coming down hill has graventatinal energy.
Food.
My mom!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
idk
Turning potential energy into kinetic energy. As you ride down the hill the potential energy you stored in your mass on the way up is converted into kinetic energy. That's why you speed up as you go down a hill and also why it's harder to go uphill.
Momentum is the product of mass and velocity which infers motion taking place. If the bike was moving then yes it would make it go downhill. The real culprit would be gravity if the bike was not already in motion. The hill is an incline and the bike is being pulled by gravity down that incline.
If a rock was about to fall off a hill, that would be potential energy. If that rock was sliding down the hill, that would be kinetic energy; it is actually moving.
You can use the formula for kinetic energy to verify the total kinetic energy (KE = 0.5mv2). Then, assuming all the energy is converted to (gravitational) potential energy, use the formula for potential energy, and solve for height. (PE = mgh)
chemical energy from food the rider has eaten gets turne into kinetic energy as the bike is moving. Then into potential energy as the bike heads uphill. As the bike heads down potential energy turns into kinetic energy.
it would be the energy that is slowly increasing