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mechanical energy
potential when it starts ,then kinetic when it starts to move ,then lights if the roller coaster has lights ,then heat because of the friction between the tracks of the roller coaster and the actual car and it also has heat because every thing has heat energy no matter what
If it is a rollercoaster that has a first drop hill, the roller coaster has the greatest kinetic energy at the bottom of that drop. If it is magnetically launched, the kinetic energy is probably greatest immediately after the launch. However, there are cases where these statements may not be true. (i.e. a drop right after a magnetic launch)The energy is the greatest at the bottom of a drop, before some is translated back into potential energy as the car climbs the next rise.
Work is the quantity of energy being transfered (i.e. potential to kinetic). It is due to work that energy is transfered between potential and kinetic and vice versa. This is an attribute of the first law of thermodynamics. Energy is also the ability to do work
Hold a rock in the air ... it has potential energy. Drop it ... the potential energy will be converted into kinetic energy. It hits the ground and stop ... the kinetic energy will be converted into thermal energy. Note that the total energy in each case is the same.
In the case of a roller coaster car, gravity itself is the basis of both potential and kinetic, the difference being that if something obstructs or controls the rate at which gravity can act to draw an object or body toward the ground then that something would be conserving potential energy. If gravity were allowed to act on the roller coaster car unimpeded then the car would be drawn straight to the ground so the relationship between potential and kinetic energy for a roller coaster is a directly proportional relationship between the distance between the track and the ground, where the slope of the track and initial speed of the roller coaster car form the initial input of energy; potential in the form of distance from the ground and kinetic in the form of velocity.
Upward motion on a roller coaster converts kinetic energy into potential energy. Downward motion converts potential energy into kinetic energy. Forward motion is a result of excess potential enegy converted into kinetic energy that cannot be expended while falling.
kinetic energy is energy in motion. potential is like a roller coaster you start at the bottom and go up to highest point of the coaster and yougain potential energy as you move to the highest point of the coaster and when you go down the peak point the potential energy the coaster was gaining is transferred to kinetic energy.
When potiental increases, kinetic decreases and vice versa.
Potential energy is used when going up hill on a roller coaster. When it starts gong down the potential energy is converted to kinetic energy.
when it is high and stopped its potential when its going down is the kinetic
The coaster have a large amount of potential energy when it gain height, kinetic energy when it gain speed instead.
A rollar coaster is a good example of electricitiy because on a roller coaster its easy to see where POTENTIAL and KINETIC energry fall.
Kinetic energy comes from movement. If the roller coaster is moving at the top of the hill, it has kinetic energy. if the rollercoaster isn't moving then it has potential energy.
Both are mechanical force.
both!
A roller coaster has more potential energy at the bottom. There are 2 types of energy, potential and kinetic. energy closer to a surface or floor is potential energy and objects in the middle of it all has kinetic energy.