Difference between revisions of "Absolute zero"
(New page: Absolute zero is the theoretical point in temperature where all motion, even at an atomic scale, stops. (This is thermal energy) At absolute zero: -273.15 degrees Celsius 0 de...) |
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| − | Absolute zero is the theoretical point in [[temperature]] where all motion | + | Absolute zero is the theoretical point in [[temperature]] where all kinetic motion of an atom at an atomic scale stops. (This is [[thermal energy]]) |
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| + | == At absolute zero: == | ||
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| + | All gases have the same pressure at absolute zero. | ||
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-273.15 degrees [[Celsius]] | -273.15 degrees [[Celsius]] | ||
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0 degrees [[Kelvin]] (Celsius increments) | 0 degrees [[Kelvin]] (Celsius increments) | ||
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-459.67 degrees [[Fahrenheit]] | -459.67 degrees [[Fahrenheit]] | ||
| − | 0 degrees [[Rankine]] ( | + | |
| + | 0 degrees [[Rankine]] (Fahrenheit increment) | ||
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| + | [[Category:Physics]] | ||
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| + | {{Stub}} | ||
Revision as of 14:35, 27 January 2020
Absolute zero is the theoretical point in temperature where all kinetic motion of an atom at an atomic scale stops. (This is thermal energy)
At absolute zero:
All gases have the same pressure at absolute zero.
-273.15 degrees Celsius
0 degrees Kelvin (Celsius increments)
-459.67 degrees Fahrenheit
0 degrees Rankine (Fahrenheit increment)
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