Isn't the answer kinetic energy or something along the lines of that? I'm an eighth grader with a basic understanding of energy, and that's the first that comes to mind....
kinetic, and then when you foot has stopped as high as it can go it is gravitational potential energy
Think of a bowling ball sitting on a shelf. The ball itself is no different from a bowling ball sitting on the floor, but one of them contains enough potential energy to break the bones in your foot if you drop it. The energy that is converted when you stretch the elastic or string from its relaxed state is called potential energy by analogy, even though there's really no potential field equivalent to gravity.
By moving an object higher up. A ball dropped off a 100 foot cliff has higher potential energy than a ball dropped off a 4 foot tall desk.
There is no "device" that is used to convert potential energy (PE) to kinetic energy (KE). PE is energy of position, for example, a bowling ball held over your head has the potential of breaking your foot if it were to fall. KE is energy of motion, for example, the energy the bowling ball has as it is falling toward your foot. The amount of PE the bowling ball had when it was motionless at some height above your head is approximately equal to the amount of KE the bowling ball has just before it lands on your foot.
Half way down the slope, the skier has kinetic energy and potential energy. At the top of the slope, before he starts moving, he only has potential energy. At the bottom of the slope, he has only kinetic energy. This is an extremely simplified explanation, but it's probably the answer that your teacher is looking for. Hope that helps.
Gravitational potential energy is the kinetic energy that an object could gain if it was allowed to move through the entire gravitational potential in question. For example, if you climb a tower that is 100 feet above the Earth's surface and hold a ball, the ball will have potential energy as long as it remains at that height (in other words, as long as it remains at that potential). If the ball is dropped, the potential energy begins converting into kinetic as the ball falls through the 100 foot gravitational potential. When the ball is on the surface of the Earth, it no longer has any gravitational potential energy with respect to the Earth's surface. All of the energy converted into kinetic energy. When the ball actually hit the Earth, the kinetic energy was converted into heat and the ball stopped moving. That heat warmed the surrounding atmosphere a bit. No energy is ever lost, it just converts from one form to another.
Gravitational potential energy is converted to kinetic energy of the fall. Some of that is then converted to heat which helps water to evaporate and to slightly increase the water temperature at the foot of the fall, some is converted to the noise of the waterfall, some is used to erode rocks at the foot of the fall.
potential energy expresses the energy that body has according to its level to a certain reference. if you drope an apple from your hand on your foot you will get less pain than that if its dropped on same foot from 3rd floor.more pain means more energy.
An object will have more potential energy at the top of a 100 foot hill. Gravitational potential energy is directly proportional to height.
Think of a bowling ball sitting on a shelf. The ball itself is no different from a bowling ball sitting on the floor, but one of them contains enough potential energy to break the bones in your foot if you drop it. The energy that is converted when you stretch the elastic or string from its relaxed state is called potential energy by analogy, even though there's really no potential field equivalent to gravity.
Gravitational potential energy is the potential energy an object has due to its position in a gravitational field. The higher an object is the greater its gravitational potential. When it falls the gravitational potential becomes kinetic energy. Energy stored in height differences ~APEX
By moving an object higher up. A ball dropped off a 100 foot cliff has higher potential energy than a ball dropped off a 4 foot tall desk.
There is no "device" that is used to convert potential energy (PE) to kinetic energy (KE). PE is energy of position, for example, a bowling ball held over your head has the potential of breaking your foot if it were to fall. KE is energy of motion, for example, the energy the bowling ball has as it is falling toward your foot. The amount of PE the bowling ball had when it was motionless at some height above your head is approximately equal to the amount of KE the bowling ball has just before it lands on your foot.
In soccer, you have a soccer ball. The ball has potential energy. When you kick the ball, the potential becomes kinetic energy and the ball moves. However, your foot has potential energy as well (all matter has potential energy because all matter has the potential to move). When you kick with your foot that potential energy becomes kinetic energy. When the soccer ball is on the ground it actually has no potential energy because potential energy is only associated with height. When the ball is kicked however the kinetic energy from the player is passed on to the ball. That kinetic energy makes the ball move. If the ball is kicked into the air then the kinetic energy is passed on and some of that kinetic energy transforms into potential energy and kinetic.
Half way down the slope, the skier has kinetic energy and potential energy. At the top of the slope, before he starts moving, he only has potential energy. At the bottom of the slope, he has only kinetic energy. This is an extremely simplified explanation, but it's probably the answer that your teacher is looking for. Hope that helps.
Gravitational potential energy is the kinetic energy that an object could gain if it was allowed to move through the entire gravitational potential in question. For example, if you climb a tower that is 100 feet above the Earth's surface and hold a ball, the ball will have potential energy as long as it remains at that height (in other words, as long as it remains at that potential). If the ball is dropped, the potential energy begins converting into kinetic as the ball falls through the 100 foot gravitational potential. When the ball is on the surface of the Earth, it no longer has any gravitational potential energy with respect to the Earth's surface. All of the energy converted into kinetic energy. When the ball actually hit the Earth, the kinetic energy was converted into heat and the ball stopped moving. That heat warmed the surrounding atmosphere a bit. No energy is ever lost, it just converts from one form to another.
by adding the objects kinetic energy and potential energy
The Total energy of moving particles is the sum of the Scalar/potential energy and the vector energy, in summary the Quaternion Energy is the Total Energy. E = Es + Ev = Es + mcV The Scalar or Potential energy is Gravity and or Electric Potential energy if the particle is charged.