.000023 per degree Celsius, a 1 meter bar will grow 2.3 mm if its temperature increases 100 degrees C.
The freezing point of carbon dioxide (CO2) is around -78.5 degrees Celsius or 194.65 kelvin at standard atmospheric pressure.
The freezing point of ethane is around 90 K on the Kelvin scale and around -298.5°F on the Fahrenheit scale.
The melting and freezing point of water in Kelvin is the same because the Kelvin scale is based on absolute zero, where atoms cease to move. At this point, both the melting and freezing points of water converge to 273.15 Kelvin, as it represents the temperature at which water transitions between solid and liquid states.
The freezing or melting point of oxygen is -218.8 degrees Celsius or 54.36 Kelvin.
Aluminum boils at 2519°C, and 2792 K. (Source: Wikipedia) Your question is incorrect in its statement of the boiling point of aluminum, but also in the relationship between Kelvin and Celsius. Specifically, 2194 K is approximately 1921°C, not 2467°C; conversely, 2467°C is approximately 2740 K. The temperature in Kelvin will always be a higher number than the temperature in Celsius.
The freezing point of Krypton is 115.78 Kelvin.
Around 1800 Kelvin.
273.15 Kelvin.
Kelvin = Celsius + 273.15 therefore (assuming you are referring to the freezing point of water, 0C) freezing point = 273.15K
The normal freezing point of water is 273.15 Kelvin, while the normal boiling point of water is 373.15 Kelvin.
Freezing point: 273.15 K Melting point: 373 K
The freezing point of carbon dioxide (CO2) is around -78.5 degrees Celsius or 194.65 kelvin at standard atmospheric pressure.
27.05 K
The freezing point of water is 273.15 K and the boiling point is 373.15 K on the Kelvin scale.
273.15K is the melting point of water in kelvin That's not correct; water boils at 100 degrees Celsius, to go from C to K, you add 273 to the Celsius temperature... 100+273 = 373 degrees K
273 degrees kelvin
The freezing point of water in the SI system of units is 0 degrees Celsius or 273.15 Kelvin.