Absolute hot is a hypothetical temperature at which all thermal motion stops, reaching the maximum possible temperature in the universe. It is estimated to be around 1.416808(33) x 10^32 Kelvin.
Yes, hot iron emits infrared radiation as it is heated. This is because all objects with a temperature above absolute zero emit infrared radiation as part of the electromagnetic spectrum.
No, all objects above absolute zero give out radiation. However, very hot objects emit more radiation and at higher frequencies than cooler objects.
The Planck temperature is the highest theoretically possible temperature in the universe, representing the limit at which conventional physics breaks down. It is considered the "absolute hot" because at this temperature, the laws of physics as we know them cease to apply. This concept helps us understand the extreme conditions that can exist in the universe and the boundaries of our current scientific knowledge.
Yes, there is a theoretical limit to temperature called the Planck temperature, which is approximately 1.416 x 1032 Kelvin. This is considered the highest possible temperature in the universe.
The heat emitted by a hot body depends on its temperature, surface area, and emissivity. The Stefan-Boltzmann law states that the total amount of heat radiation emitted by a body is directly proportional to the fourth power of its absolute temperature.
Absolute zero and Absolute hot have not changed and can not change.
The temperature scale must be absolute (like Kelvin), so it's always "hot" since no negative temps exist in the absolute scales.
Absolutely ... In fact, the absolute order is as follows: - Blue Hot, followed by Red Hot, ending with Ultra White Hot Unknown Physicist 1826
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Yes (with the exception of absolute zero) but the energy in hot and cold is always heat energy. (Cold is defined as the absence of heat)
Compared to absolute zero, yes. Compared to the sun, no.
Currently the highest temperature is 1.416785(71) × 1032 Kelvin. If you subtract 273.15 from it though, to turn it into celcius, it's still going to be the same number, since it's so big. so 1.416785(71) x 1032 celsius is absolute hot.
Absolute zero is -459.67°F, so +80°F is 539.67° above absolute zero. Half of that would be 269.835°. Subtracting that from 80°F gives your answer of -189.835°F.
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It needs to have a temperature that is above absolute zero.
Neither of them are absolute scales so that 2 degrees is not twice as warm (hot) as 1 degree. 10 degrees is not ten times as hot as 1 deg.