Gas and liquids both take on the shape of a container.
The water has already reached the 212 degree boiling point. At 212 degrees the water can exist as either a liquid or a vapor. Absorbing the latent heat pushes liquid to the vapor state without any change in temperature.
No, not when this stove is under normal pressure (1 Bar)
Anything can be solid, liquid or gas, but the easiest example is probably water. Water freezes/melts at 32 degrees Fahrenheit (0 degrees Celsius) and boils/condenses at 212 F (100C) and is liquid at normal room temperature.
Water is a gas (steam) at 120 degrees Celsius.
Gas and liquids both take on the shape of a container.
The water has already reached the 212 degree boiling point. At 212 degrees the water can exist as either a liquid or a vapor. Absorbing the latent heat pushes liquid to the vapor state without any change in temperature.
At normal pressure steam changes to liquid water at 212 degree F.
The water has already reached the 212 degree boiling point. At 212 degrees the water can exist as either a liquid or a vapor. Absorbing the latent heat pushes liquid to the vapor state without any change in temperature.
No, not when this stove is under normal pressure (1 Bar)
212
Ice is water, so if you heated it it would melt into liquid water before it could boil. The boiling point of water, of course, is 100 Celsius or 212 Fahrenheit (at sea level).
The water has already reached the 212 degree boiling point. At 212 degrees the water can exist as either a liquid or a vapor. Absorbing the latent heat pushes liquid to the vapor state without any change in temperature.
water
1 BTU is required to raise 1lb of water 1 degree F in 1 hour. 212-75=137 degrees 600 lbs water x 137 degrees= 82,200 BTU's required to change 75 degree water to 212 degree water. To change 212 degree water to 212 degree steam it requires 970 btu's (latent heat of vaporization) per lb of water 970 btu x 600 lbs water = 582,000 btu Answer - 582,000 btu+ 82,200 btu = 664,200 btu's
At 35 degrees Fahrenheit, water is in a frozen state. To boil water, you need to increase the temperature to 212 degrees Fahrenheit (100 degrees Celsius) at sea level. This increase in temperature is necessary to overcome the intermolecular forces holding water molecules together in the liquid state.
Cooling water vapor to below 212° F changes the gas to a liquid.