(-195.79 °C, -320.42 °F)
That is close but nitrogen boils at -182.95 Degrees Celsius And -297.31 Degrees Fahrenheit.
-183°C
-321°F
liquid nitrogen boils at -196c or 77k
Liquid nitrogen will absorb energy from the surroundings and will boil. So the reaction is endothermic.
sea water boil at 105 c
Liquid nitrogen can be kept at room temperature at sufficient pressure. Otherwise, it is a gas.
Nitrogen is a gas under room temperature. It is in fact the most abundant gas in ourr atmosphere. Nitrogen can also be in the form of liquid nitrogen which can be used to make ice cream and create smoke for culinary decoration.
-297*F.
Two elements that boil at a temperature below zero degrees Celsius are helium and hydrogen. Helium boils at -268.9 degrees Celsius, while hydrogen boils at -252.9 degrees Celsius.
Yes. At atmospheric pressure, nitrogen boils at -320 degrees Fahrenheit.
By fractional distillation. Allow liquid air to get less cold. At around 77.4K, nitrogen will boil off while oxygen will remain liquid. The temperature will begin to rise again when all the nitrogen has boiled off.
No, water boils at 100 degrees Celsius (212 degrees Fahrenheit) at standard atmospheric pressure. Room temperature is typically around 20-25 degrees Celsius (68-77 degrees Fahrenheit), which is well below the boiling point of water.
Nitrogen is a gas at room temperature and typically exists as N2 molecules, which do not have a specific temperature. However, the boiling point of nitrogen is -195.79 degrees Celsius, which means it would be a gas at room temperature around 20 degrees Celsius.
Nitrogen can be obtained as a solid at very low temperature, under -210 0C. At room temperature nitrogen is a gas.
Oxygen boils at -183 degrees Celsius and melts at -219 degrees Celsius.
Nitrogen gas is not in itself flammable, and does not have an auto ignition temperature.
Liquid nitrogen will absorb energy from the surroundings and will boil. So the reaction is endothermic.
It depends on how much water, how hot it is, and how much liquid nitrogen there is. The water will initially cause the liquid nitrogen to boil; if there's enough water and it's hot enough, it may make the nitrogen boil explosively. However, if there's enough nitrogen, it will eventually freeze the water.
The temperature is 60,3 oC.
Decreasing the pressure -APEX