Please re-phrase the question. Your question is unclear to me.
There are various types of images available for geothermal energy, such as power plants, geysers, hot springs, underground reservoirs, and drilling operations. These images depict the process of harnessing heat from beneath the Earth's surface to generate electricity or provide heating and cooling. You can find a wide range of geothermal energy pictures by searching online or through stock photo websites.
You can get mechanical energy through an electric motor, or thermal energy through a resistance heating element. You can also breakdown an electrolyte by passing a current through it, and you can produce microwave energy in a magnetron, or acoustic energy through loudspeakers.
Yes, thermal energy is a type of energy associated with the temperature of an object. It is the energy that comes from the movement of atoms and molecules within a substance.
Three advantages of burning oil products would be that they are cheaper, burn quickly, produce a lot of energy and are available until they are gone. These advantages don't out weigh the negatives.
Temperature is a measure of the average kinetic energy of particles in a material. It reflects the speed and energy with which the particles are moving.
Solar energy
The energy can come from just about any source of AVAILABLE energy.
You cannot prevent any event that is current.
Any energy that either is no longer available to convert to useful energy types.
A pack of grey wolves get their energy from eating any prey they can kill, and their water is from any available stream.
Yes, "visible" light.
any place feul oxygen and heat are present
In any reaction, or process, both the amount of mass and the amount of energy remain constant. You might say that mass has energy, and energy has mass. Any mass or energy "created" during a reaction was already present previously.
any where across where you think there is voltage present
Any wave does that.
As a workable generalisation, any system will tend to its lowest energy state - the loss of energy (Gibb's free energy) is the driving force for any chemical reaction.
Theoretically, yes, however the technology available for most of it is not efficient, or existent.