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A simple example would be a roller coaster. As the coaster climbs up a hill, potential energy due to its height increases. When it goes down the hill, this potential energy is converted to kinetic energy as the coaster gains speed.
That refers to potential energy related to a gravitational field. In simple terms, an object that is higher up has more energy than one that is lower. This energy can be converted into other energy types; for example, when an object falls down, its potential energy is converted to kinetic energy (i.e., movement). The formula for gravitational potential energy is: GPE = wh (weight x height) or equivalently: GPE = mgh (mass x gravity x height)
Kinetic energy is a form of energy that an object or a particle has by reason of its motion.
'kinetic energy of molecules' is heat; so your answer is any heat engine: for example, a steam locomotive.
In a simple harmonic oscillator, kinetic energy and potential energy are equal at the amplitude of the motion. At this point, all the energy is in the form of kinetic energy, and the displacement is at its maximum value.
It is as simple as a windmill. Water pushes panels and just like a flashlight with power generated by a lever, it creates energy for much of the northeast. The person who started this is Nicola Tesla.
A pendulum is a type of simple machine called a lever. It consists of a rod with a weight (bob) at one end and a pivot point at the other. The swinging motion of the pendulum results from the transfer of gravitational potential energy to kinetic energy.
Kinetic energy is the energy of motion. It's that simple.
Here are some examples of how kinetic energy becomes potential energy: -when a rollercoaster car is at the bottom of a hill and going back up the next hill. -when a ball hits the floor and bounces back up. -climbing up a rock wall. Hope this was helpful!
Normally, in most contexts, the opposite of "kinetic" (moving) could be "static" (not moving). When talking about 'energy' the opposite of "kinetic" can be "potential", i.e., kinetic energy vs potential energy. An object in ballistic motion (i.e., moving only under the influence of a simple gravitational field) may exchange its energy between kinetic and potential forms, perhaps even repeatedly, but the sum of the two will remain constant. Examples (neglecting friction) include a pendulum, a roller coaster and a satellite in an elliptical orbit.
Well, one type of kinetic energy is a roller coaster. Now, a roller coaster has energy of motion, and it depends on its speed and mass. Its really simple. If u need to do something bout kinetic energy like, for homework or a project, it could be simply a toy car or ball.
Well, one type of kinetic energy is a roller coaster. Now, a roller coaster has energy of motion, and it depends on its speed and mass. Its really simple. If u need to do something bout kinetic energy like, for homework or a project, it could be simply a toy car or ball.