You are transferring the heat into the water and changing it into steam. Steam has potential energy that can be released by cooling and expansion. This potential energy is released either in heat or can be converted back to kinetic energy by its expansion. This is how power plants work. Some fuel is burned to heat water to steam. Which contains potential energy converted from the heat of the burning fuel. This potential energy releases heat and kinetic energy as it is allowed to expand pushing and driving the turbines that turn the electric generators, and thus the kinetic energy is, by way of the generator converted to electric energy.
It CAN be converted to kinetic energy, but it won't always do so.
Then part of the potential energy will either remain as potential energy, or be converted into some other type of energy.
Potential - Kinetic - Potiential again as you drop the yo yo, the potential energy it had at its height is converted to kinetic energy. as it starts to come back up, it is converted back to potential energy
It is tranferred/converted into kinetic energy (DECREASES)
Kinetic energy and potential energy are not usually proportional. In the general situation, you can't derive potential energy from kinetic energy. In specific cases, sometimes you can - especially if you assume that potential energy that existed previously got converted to kinetic energy, or vice versa.Kinetic energy and potential energy are not usually proportional. In the general situation, you can't derive potential energy from kinetic energy. In specific cases, sometimes you can - especially if you assume that potential energy that existed previously got converted to kinetic energy, or vice versa.Kinetic energy and potential energy are not usually proportional. In the general situation, you can't derive potential energy from kinetic energy. In specific cases, sometimes you can - especially if you assume that potential energy that existed previously got converted to kinetic energy, or vice versa.Kinetic energy and potential energy are not usually proportional. In the general situation, you can't derive potential energy from kinetic energy. In specific cases, sometimes you can - especially if you assume that potential energy that existed previously got converted to kinetic energy, or vice versa.
the heat is a form of energy...and heat is stored is the water...so heat energy become potential energy because heat is stored in water
can be converted to potential energy.
If potential energy is not converted into kinetic energy (or into any other type of energy) then it remains potential. Potential energy does not expire.
The chemical potential energy in fossil fuels is converted to thermal energy (heat) by burning them.
It CAN be converted to kinetic energy, but it won't always do so.
Kinetic energy being converted to chemical potential energy
No. Lots of types of energy can be converted to potential energy.
Until converted, it is potential energy. However, to make nuclear energy domestically useful it is converted into thermal (thermodynamic) energy (heat), which, in turn, is converted into electrical energy, both of which are kinetic energy.
Then part of the potential energy will either remain as potential energy, or be converted into some other type of energy.
Until converted, it is potential energy. However, to make nuclear energy domestically useful it is converted into thermal (thermodynamic) energy (heat), which, in turn, is converted into electrical energy, both of which are kinetic energy.
In a pendulum, the energy transformations involve potential energy being converted to kinetic energy as the pendulum swings back and forth. At the highest point of the swing, the pendulum has maximum potential energy, which is then converted to maximum kinetic energy at the lowest point of the swing. This process continues as the pendulum oscillates, with energy being continually converted between potential and kinetic forms.
If a body with gravitational potential energy is allowed to fall, then the potential energy is converted (mostly) to kinetic energy.