Input energy = output energy + losses
energy transfer increases temperature
Proportional. The higher the mass, the greater the heat energy it will contain.
Work is the transfer of mechanical energy; its units are the same as for energy, for example joule. Power is the rate of transfer of energy, and it has units of energy/time, for example watt.
The transfer of energy between two objects is referred to as heat transfer. It is always called heat transfer, regardless of what kind of energy is being transferred.HeatThermal energy.yes. btw, that's not a question.
Energy transfer: take it somewhere else. Energy conversion: change it to another type of energy.
energy transfer increases temperature
they both have a connection by neutrons of the same energy level of an atom
Energy input = energy output + losses. Both energy output and losses are usually positive (they might also be zero in some specific cases), meaning that (usually) each of them individually is less than the energy input.
Proportional. The higher the mass, the greater the heat energy it will contain.
Work is the transfer of mechanical energy; its units are the same as for energy, for example joule. Power is the rate of transfer of energy, and it has units of energy/time, for example watt.
The relationship between the two is their energy source which is the sun.
When each object has the same energy, energy transfer can still occur between objects. The object with the greatest mass or traveling speed will transfer the energy.
there is a relationship they produce temperature.
The transfer of energy between two objects is referred to as heat transfer. It is always called heat transfer, regardless of what kind of energy is being transferred.HeatThermal energy.yes. btw, that's not a question.
Energy transfer: take it somewhere else. Energy conversion: change it to another type of energy.
What is the difference between an ordinary transformer and resonant coupling energy transfer?
Conduction