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the energy in an object about to fall is potential energy then kinetic energy because when the object is not falling, it has potential energy but when it's actually falling, it has kinetic energy.
While an object is falling, most of the potential energy gets converted to kinetic energy, i.e., it gets faster and faster. When it crashes on the ground, this kinetic energy is converted to other types of energy, usually heat.
Lifting an object up (giving it potential energy) and dropping it (kinetic energy) onto a desk (sound and heat on impact)Potential energy can be converted to kinetic energy in various ways:Gravitational potential energy causes a static object to have potential energy at various altitudes, and when the object is in motion, it converts to kinetic energy. Elastic potential energy involves springs; when a spring is compressed the potential energy increases and when it releases, it is converted into kinetic energy. These are only two ways in which potential energy is converted into kinetic energy.Potential energy is associated with the configuration or position of the body while kinetic energy is associated with motion. The addition of these two for a body always comes out to be the same and hence makes the basis for the law of conservation of energy. The total energy (kinetic+potential) of a body is called the mechanical energy.Take for instance a simple pendulum, when it is at its amplitude (extreme left or right position), due to the negative acceleration at that point it comes to halt (therefore, potential energy is maximum). When it reaches its equilibrium position (centre or mean position), it has maximum velocity and hence maximum kinetic energy.So more motion = more kinetic energyLess motion = more potential energyaccording to law of conservation of energy,energy can neither be created nor destroyed but can be converted from one form to another,i.e.from potential to kinetic.hence when we rise a ball ,energy is transfered from us to the ball & gets stored as potential energy which on falling converts into kinetic energy.Potential energy is energy due to mass and height, while kinetic energy is energy due to mass and velocity. To convert potential energy to kinetic energy, simply let go of the object and let it fall. As is accelerates due to gravity, its potential energy will change to kinetic energy.Examples:A ball rolling down a slanted surface.Something falling off a shelf to the floor below.A spring release that opens the engine hood of a car.dropping an item from rest above the ground. think of potential energy as height and kinetic as the motion of falling.dropping an item from rest above the ground. think of potential energy as height and kinetic as the motion of falling.
Before it falls it has gravitational potential energy. While it falls, the potential energy gets converted to kinetic energy. Part of this gets dissipated by friction - mainly converted to heat. Once it hits the ground, all the energy will be converted to heat.
You lift a beer can a foot off the table, thus imparting gravitational potential energy to each preciousgolden drop of liquid in the can. You then tilt the can, positioning its orifice directly above the waiting stein.The liquid gives up its gravitational potential energy while falling from the can into the glass below.Upon impact with the glass, the gravitational potential energy has become kinetic energy, which is usedto generate the bountiful and luxurious head.
The simplest example is a falling object. Its potential energy is reduced, while its speed, and thus its kinetic energy, increases.
As the apple falls, its potential energy decreases while its kinetic energy increases, until it lands, at which point it has maximum potential energy.
Because they are not mutually exclusive. Take for example a falling object; while falling at a given velocity it has (.5)(mass)(velocity)2=Kinetic Energy but also has the potential energy of whatever distance it has yet to fall, which equals (mass)(gravity)(height)=Potential Energy These two types of energy equal the Total Energy of the falling object, which never changes as it falls.
yes, as long as the wire is off the ground, the bird will have gravatational energy as it has the possibility to do something while falling. One could even argue that a bird flying has both kinetic and gravatational potential energy. i hope that clears things up!
the energy in an object about to fall is potential energy then kinetic energy because when the object is not falling, it has potential energy but when it's actually falling, it has kinetic energy.
hydro thermal or gravitational hydro where the water is evaporated and the steam pushes a turbine that creates energy. gravitational where the water falling hits and turns a turbine that creates energy
Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.
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.
While an object is falling, most of the potential energy gets converted to kinetic energy, i.e., it gets faster and faster. When it crashes on the ground, this kinetic energy is converted to other types of energy, usually heat.
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.
The summation of potential and kinetic energy of an object is constant. When the potential energy of an object decreases the kinetic energy increases. Assume a falling stone from some high point above ground. At the beginning, the potential energy is maximum while the kinetic energy is minimum or zero. While the stone is falling, the kinetic energy increases while the potential energy increases (with the summation of both is constant). When the stone reaches the ground, the kinetic energy is maximum and the potential energy is zero.
Potential energy decreases while kinetic energy increases as a car goes down a hill without braking.