Want this question answered?
Heat- the energy transferred from a hot object to a cooler one.
Heat is a form of energy. The energy is tied to the molecules of the object. The faster the molecules in an object vibrate, the more heat energy it contains and therefore the more hotter it is. By measuring the amount of vibration in an objects molecules, you can calculate how hot it is.
Heat=energy. The higher the heat, the higher the energy. Particles travel faster because they have more energy.
No, thermal energy always transfers from a relatively hot object to a relatively cold object. This is because, when heated, atoms have more kinetic energy, and they pass this down to the "colder" particles, which have a lesser degree of kinetic energy.
heat only move from high temp to lower temp
Heat- the energy transferred from a hot object to a cooler one.
Heat is a form of energy. The energy is tied to the molecules of the object. The faster the molecules in an object vibrate, the more heat energy it contains and therefore the more hotter it is. By measuring the amount of vibration in an objects molecules, you can calculate how hot it is.
Heat=energy. The higher the heat, the higher the energy. Particles travel faster because they have more energy.
heat is a form of energy a while tempreture is a measure of how hot an object is.
They both have something to do with thermal energy.
No, thermal energy always transfers from a relatively hot object to a relatively cold object. This is because, when heated, atoms have more kinetic energy, and they pass this down to the "colder" particles, which have a lesser degree of kinetic energy.
heat only move from high temp to lower temp
One way is if an object has, or is given energy. For example, if you turn a lamp on and leave it, it starts to get hot from the energy being given to it
heat travel from a hot object first then to cold object!
Heat always flows from hot to cold. Cold is the absence of heat.
In a closed system, yes. Both objects will be at the same thermal energy level, and neither will be able to release any to the other. In the real world, this is not the case, heat would continue to dissipate until the object reaches the same thermal energy level as the air around it, approximately.
I'd say you want the explanations exactly the other way around: Temp . . . how hot or cold the whole object is. Heat . . . the amount of energy in the object's particles.