If you heat steam above 100 degrees Celsius, it will continue to increase in temperature without changing to water. This is because steam is already in a gaseous state at temperatures above 100 degrees Celsius.
Water becomes steam at 100 degrees Celsius under normal atmospheric pressure.
Steam is produced whenever water boils, which occurs at 100 degrees Celsius at standard pressure and temperature (boiling point changes at altitudes because of the pressure change, remember).
I'm not clear on what you're asking. Water can exist at many different Celsius degrees. Below zero, it takes the form of ice. Above 100, it takes the form of steam.
Steam is usually at a temperature of 212 degrees Fahrenheit (100 degrees Celsius) when it forms at sea level.
water at 250 degree Celsius exists in gaseous state
At 105 degrees Celsius, steam will remain in the gaseous phase as it is above the boiling point of water (100 degrees Celsius). Steam will continue to condense into liquid water only once it cools down below the boiling point.
Water boils and turns into steam above 100 degrees Celsius.
It still remains as water, but it has a change of state from liquid ti gas. When it is in the gaseous form , it is referred to as 'water vapour'.
at 100 degrees liquid water will go to steam and steam will go to liquid water
Steam is warmer because it's not freezing like ice.
Water becomes steam at 100 degrees Celsius under normal atmospheric pressure.
It can be anywhere in between 60C and 100C (boiling point).
Steam is produced whenever water boils, which occurs at 100 degrees Celsius at standard pressure and temperature (boiling point changes at altitudes because of the pressure change, remember).
To convert 12.5 grams of ice at 0 degrees Celsius to steam at 100 degrees Celsius, you would need to provide heat energy for three main processes: heating the ice from 0 degrees Celsius to 100 degrees Celsius, melting the ice into water at 0 degrees Celsius, and then heating the water from 0 degrees Celsius to steam at 100 degrees Celsius. The total calorie requirement would be determined by the specific heat capacities and heat of fusion and vaporization of water.
I'm not clear on what you're asking. Water can exist at many different Celsius degrees. Below zero, it takes the form of ice. Above 100, it takes the form of steam.
Steam is usually at a temperature of 212 degrees Fahrenheit (100 degrees Celsius) when it forms at sea level.
Yes, it can.