Heat is a form of energy, so yes.
Temperature
Temperature depends on the average kinetic energy of atoms and molecules.
Of particles, such as atoms or molecules.
Thermal energy (temperature) is the measurement of kinetic energy of atoms moving in a substance, therefore, as the speed (kinetic energy) of these atoms increases, thermal energy increases as well.
Since heat and energy are the same it is called Kinetic energy. The temperature is what makes up the average particles in motion which are in all atoms.
The more energy removed, the slower the motion of the atoms and molecules.
Temperature is the measure (in degrees Kelvin) of the average kinetic energy of the atoms and molecules of a material.
temperature
kinetic energy of its atoms
Temperature
The average Kinetic energy of the atoms in the sample will increase as the sample is heated.
The more an objects kinetic energy increases the more it's temperature increases. An object that is traveling at 30 miles per hour will have a higher temperature than an object traveling at 10 miles per hour. This is in part due to friction. Mostly however, it is due to the fact that kinetic energy excites atoms in the object raising the objects temperature. You could put it like this: temperature = energy + atoms. Hope this helps.
Temperature depends on the average kinetic energy of atoms and molecules.
Temperature is related to the average energy per particle.
Temperature.
Yes, hot atoms must transfer their energy to colder atoms to keep the atomic temperature and movement balanced, and to keep these atoms alive.
Do you mean dos? And if u do read below...You cannot measure heat directly, but you can detect its effect on a substance. Changes in heat can usually be detected as changes in temperature. Usually, when you add energy to a bunch of atoms they move faster and get hotter. Similarly, if you remove energy from a bunch of atoms, they usually move less and get cooler.Figure P1 aColdFigure P1 bWarmFigure P1 cHotBecause adding heat energy usually results in a temperature rise, people often confuse heat and temperature. In common speech, the two terms mean the same: "I will heat it" means you will add heat; "I will warm it up" means you will increase the temperature. No one usually bothers to distinguish between these.Figure P2aChanging TemperatureAdding heat, however, does not always increase the temperature. For instance, when water is boiling, adding heat does not increase its temperature. This happens at the boiling temperature of every substance that can vaporize. At the boiling temperature, adding heat energy converts the liquid into a gas WITHOUT RAISING THE TEMPERATURE.Figure P2bConstant TemperatureAdding heat to a boiling liquid is an important exception to general rule that more heat makes a higher temperature. When energy is added to a liquid at the boiling temperature, its converts the liquid into a gas at the same temperature. In this case, the energy added to the liquid goes into breaking the bonds between the liquid molecules without causing the temperature to change. The same thing happens when a solid changes into liquid. For instance, ice and water can exist together at the melting temperature. Adding heat to an ice-water slush will convert some of the ice to water without changing the temperature. In general, whenever there is a change of state, such as the solid-liquid or the liquid-gas transition, heat energy can be added without a temperature change. The change of state requires energy, so added energy goes into that instead of increasing the temperature.