# No real substances are gaseous at temperatures near absolute zero; # Absolute zero cannot be physically achieved (though we can get pretty close). Taken together they make the question irrelevant to any real situation.
Gasses liquefy before absolute zero. Helium is a special case.
Various gasses in the air all turn to liquids, and then to solids.
Molecular motion stops.
Many gases become liquids.
The Kelvin scale is based on the absolute motion of molecules, at absolute zero, there is no motion. Of course this is theoretical, it has never been reached, though we've come close, withen a few thousandths I think.
Absolute Zero; also known as 0 degrees Kelvin or -273.15 Degrees Celsius. This is the theoretical temperature where particles have no energy and therefore cannot vibrate. It is only theoretical because it has not yet been reached; we can cool Helium down pretty far so it becomes a liquid that will float out of a vessel...pretty neat! So, yeah, without going into quantum levels..the answer you are looking for is ABSOLUTE ZERO or 0 KELVIN or -273.15 CELSIUS. Enjoy!
The Third Law of Thermodynamics."Absolute zero (0 K) is the lower limit of temperature. The temperature of absolute zero cannot be attained physically because to do so would require virtually all the heat to be taken from an object. Therefore, it is impossible to attain a temperature of absolute zero."
Absolute zero is the theoretical temperature at which all atomic motion stops. However, this temperature is unattainable, because it represents a complete lack of energy within particles of matter. Even in deep space, this temperature cannot be reached so, like the speed of light, it is a scientific limit which can only be approached. On the Kelvin scale it's 0, on the Celsius scale it's -273.16.
The most significant thing about the temperature of absolute zero is that is marks the point where molecular motion stops. It is equal to −459.67 degrees Fahrenheit.
Absolute zero is the coldest theoretical temperature; the temperature at which all subatomic movement is zero.
absolute zero
Absolute Zero is a theoretical temperature where all molecular activity ceases and by international agreement it is set at -273.15 Celsius.
Because temperature is actually a measure of molecular/particle movement and absolute zero is where there is no movement at all.
The lowest temperature is known as absolute zero which is equal to 0K (0 Kelvin) and -273.15 Celsius (-459.67F). Absolute zero has never been recorded but is the theoretical temperature of which no heat can be extracted from a system. It is theoretical because at 0K matter would have no pressure and therefore no volume.
There is no theoretical upper limit for temperature.
"absolute zero" or 0 degrees Kelvin.
Kelvin (K) is actually the same scale as Celsius (C), but whereas Celsius is set such that zero Celsius is the freezing point of water, the Kelvin scale is set such that zero Kelvin is absolute zero, which is the temperature at which all kinetic. Absolute zero is zero degrees Kelvin, at which point there is no kinetic activity in a molecule or atom. There are presently no theoretical means of achieving absolute zero.
7o-800o7o-800oIt is absolute zero, the temperature where there is zero energy and zero entropy. This temperature is unobservable.Absolute zero is the coldest theoretical temperature; the temperature at which all subatomic movement is zero.Absolute zero is the lowest possible temperature (zero kelvin). Absolute temperature is the temperature, measured from absolute zero - in other words, any temperature, measured (usually) on the kelvin scale.7o7oNo, there is none at all. The wind can blow very strongly or not at all when the temperature is below zero. Similarly, you can have a strong, hot wind, or very calm and hot weather.what is the temperature when the height of air equals
2000 degrees C
Molecules are constantly in motion. Whether they are free moving, as in a gas, or are vibrating in place, as in a solid object, they still move. an object that has reached the theoretical temperature of absolute zero would have no molecular motion, but absolute zero is purely theoretical and is thereby unattainable.
The Kelvin scale is based on the absolute motion of molecules, at absolute zero, there is no motion. Of course this is theoretical, it has never been reached, though we've come close, withen a few thousandths I think.