the height of the skier.
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.
Potential energy is the energy that an object has due to its position or condition. Energy is a property of objects.
Potential energy is the energy that an object has due to its position in a force field or that a system has due to the configuration of its parts hence cannot be a potential energy.
A combination of kinetic and potential energy (Otherwise known as mechanical energy.)
The definition of Gravitational potential energy is In physics, potential energy is the energy stored in a body or in a system due to its position in a force field or due to its configuration
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.
kinetic energy
Yes. At the top of the hill, the potential energy is at a maximum. As the coaster is rolling down the hill, the potential energy (or energy due to the coaster's position or height), is converted into kinetic energy (as the roller coaster is rushing downhill). Hope this helps, physicsisland@hotmail.com
The skier will gain momentum as they travel down the hill but once the hill flattens out they will eventually slow down due to friction
At the top of the slide, the child has a bunch of potential energy. Potential energy becomes converted to kinetic energy as the child accelerates down the slide. At the bottom of the slide, your science teacher will say that all potential energy is converted to kinetic.If your looking to be more technical, some kinetic energy will become heat along the length of the slide via friction. At the end of the slide, the child has to stop right? When the child lands on his feet, or face, the inelastic collision between his feet or face and the sand would produce more heat from kinetic energy. Then he will have neither potential nor kinetic energy, the heat he created would be dissipated into the air, sand, and slide as if everything is back to normal. But he might have some cuts and bruises if he did slide down face first.
The difference between potential and kinetic energy is that potential is energy that is waiting to be utilized, such as a battery, a car on a hill, or food. Kinetic energy is potential energy that has been put to use, so the electricity from a battery, a car rolling down a hill, and using food energy to run are all examples of kinetic energy.
Potential energy is the energy that an object has due to its position or condition. Energy is a property of objects.
Potential energy is the energy that an object has due to its position in a force field or that a system has due to the configuration of its parts hence cannot be a potential energy.
When an object is stationary in a plane, (no hill or slope) then potential energy and kinetic energy are equal. Following the case, if an object is stationary at the top of a hill, it has stored energy (potential energy) due to gravitational attraction, as the force of gravity attracts the object towards the ground and once the object gets some kind of motion, all those potential energy will change to kinetic energy. **************************** Actually, the Object CAN be moving, but it is moving Parallel to its Reference Frame, and at a Constant Velocity.
A combination of kinetic and potential energy (Otherwise known as mechanical energy.)
It is easier to see this using a traditional roller coaster model. Most traditional Roller Coasters start by using a tow cable to pull them up a large "hill". When being pulled up this hill, mechanical energy is being used to give the roller coaster potential energy. At the top of this hill, the roller coaster has it's maximum potential energy. As it starts to go down another hill, it picks up speed. During the descent it is losing potential energy but at the same time gaining kinetic energy. The coaster will then lose kinetic energy but gain potential energy as it goes up the next hill. This cycle of gaining/losing potential and kinetic energy is the conservation of energy that you are looking for. Of course in a real roller coaster, some energy will be lost due to friction. This will come off as heat in the rails and the wheels of the roller coaster and it's structure.
No , it won't have potential energy. Potential energy is due to height.