It depends on how high you heat or cool the air. The density and entropy as functions of temprature would be affected mostly. By heating the air density decreases and entropy increases.
The convection of the air causes the particles to heat up. In other words, the heated particles hit the air particles, causing the air particles to heat up. So it doesn't "conduct" heat rather that the air heats up from a heat source.
The body transfer heat to air by a heat transfer method called radiation.
Air absorbs heat as does any other substance. The heat is absorbed into increasing kinetic energy of the particles that make up air.
Heat is the energy of the hot air. Therefore hot air rises
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The air becomes thinner, thus it cannot retain heat as does heavier air. Also air closer to the earth's surface will be affected by the thermal mass of the earth, which retains heat.
The rate of cooling is affected by the temperature difference between the warm substance (air in this case) and the substance that is gaining that heat. If they are close in temperature there will not be as fast am exchange of heat. If the warm air and the cool air in the question are being cooled by transferring their heat to a substance at a set temperature, then the warmer air will cool faster, because it has a bigger temperature differential from the substance than does the cooler air.
It depends on how high you heat or cool the air. The density and entropy as functions of temprature would be affected mostly. By heating the air density decreases and entropy increases.
It depends on how high you heat or cool the air. The density and entropy as functions of temprature would be affected mostly. By heating the air density decreases and entropy increases.
The air and sea to the east has been affected by radiation.
Air to air simply means a heat pump that sits outside of your home and pulls heat from the outside air. This is the most common type of heat pump.
Probably not but in extreme heat it would. I think.
electron.
They heat up.
Radiation!!
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