The potential energy that gathered as the ball was ascending rapidly converts to kinectic energy as the ball falls downwards, at a rate of 9.801 meters/second squared.
Kinetic energy (energy of motion) and potential energy (stored energy) A ball at the top of a building getting ready to be dropped has potential energy, but a ball falling has kinetic energy If the ball is at the top of the building, it has 100% potential and 0% kinetic and when it is halfway from top to bottom and falling it has 50% of each
Ball at the top of a Hill
kinetic energy
it has kinetic energy!
It has potential energy.
Kinetic energy (energy of motion) and potential energy (stored energy) A ball at the top of a building getting ready to be dropped has potential energy, but a ball falling has kinetic energy If the ball is at the top of the building, it has 100% potential and 0% kinetic and when it is halfway from top to bottom and falling it has 50% of each
Kinetic energy (energy of motion) and potential energy (stored energy) A ball at the top of a building getting ready to be dropped has potential energy, but a ball falling has kinetic energy If the ball is at the top of the building, it has 100% potential and 0% kinetic and when it is halfway from top to bottom and falling it has 50% of each
It is conserved. The potential energy of the ball sitting at the top of the hill is converted into kinetic energy of the rolling ball.
going down a slide
Ball at the top of a Hill
kinetic energy
kinetic energy
it has kinetic energy!
Gravitational potential energy.
It has potential energy.
a ball at the top of a hill has potentail energy and when it is rolled is has kinetic.
it's still kinetic energy when it's in the air, MOVING, that's what kinetic energy is. But before it falls, let's say it's on the top of a hill or in someone's hand, it has potential energy.