Pure water, at the pressure of 1 atmosphere will freeze at 273.15 K.
Quite a cold tempurature on I assume.
Water freezes at 273.15 kelvin on the Kelvin temperature scale.
Kelvin temperature scale indicates a boiling water temperature of 373º.
The boiling point of water is 100 degrees Celsius, which is equivalent to 373.15 Kelvin. The Kelvin scale starts at absolute zero, where there is no molecular motion, while the Celsius scale starts at the freezing point of water.
373 kelvin 100 celsius kelvin is basically celsius + 273
Quite a cold tempurature on I assume.
Firstly, temperatures measured in Kelvin (K) are not degrees but rather, just numbers. However, 373 K is the same as 100 degrees C. At that temperature, pure water begins to boil at sea level.
Water freezes at 273.15 kelvin on the Kelvin temperature scale.
On the Kelvin scale, water boils at 373.15 K.
Precisely 273.16 degrees kelvin
The temperature scale where water froze at 273 degrees is likely the Kelvin scale. On the Kelvin scale, 0 degrees represents absolute zero, the lowest possible temperature where all molecular motion ceases. Hence, 273 degrees Kelvin corresponds to 0 degrees Celsius.
Kelvin temperature scale indicates a boiling water temperature of 373º.
The boiling point of water is 100 degrees Celsius, which is equivalent to 373.15 Kelvin. The Kelvin scale starts at absolute zero, where there is no molecular motion, while the Celsius scale starts at the freezing point of water.
373.15ºK
Pure water at STP boils at 100 degrees Celsius, which is 373.15 Kelvin.
On the Kelvin scale, 0 is absolute zero, which is the theoretical temperature at which all atomic motion stops. This is not a possible temperature to reach, not even in deep space. There is no "below zero" on the Kelvin scale. Water melts at 273 Kelvin, and boils at 373 Kelvin.
273 K