Water takes this state between 0 and 100 degrees Celsius. It is in its liquid form within this temperature range.
At 100 degrees Celsius, rubidium is a solid. Its melting point is 39.3 degrees Celsius, so at 100 degrees Celsius, rubidium would be in a solid state.
The Celsius scale is divided into 100 equal parts between the freezing point of water at 0 degrees Celsius and the boiling point of water at 100 degrees Celsius.
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.
Water freezes at 0 degrees Celsius and boils at 100 degrees Celsius at standard atmospheric pressure.
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 takes the state of liquid (water) between 0 and 100 degrees celsius.
Water takes liquid form between 0 and 100 degrees.
liquid
liquid
Liquid
Methane is in a gaseous state at 100 degrees Celsius.
At 100 degrees Celsius, ethanol is in its liquid state. Ethanol boils at a higher temperature of 78.4 degrees Celsius, so at 100 degrees Celsius it would be in a liquid state.
Ethanol is a liquid at 100 degrees Celsius, as its boiling point is 78.37 degrees Celsius. At 100 degrees Celsius, ethanol would be in its gaseous state.
At 100 degrees Celsius, rubidium is a solid. Its melting point is 39.3 degrees Celsius, so at 100 degrees Celsius, rubidium would be in a solid state.
Bromine is a liquid at -100 degrees Celsius. It has a melting point of -7.2 degrees Celsius, so at -100 degrees Celsius, bromine would be in its solid state.
Water boils and turns into steam above 100 degrees Celsius.
At 100 degrees Celsius, lithium would be in a solid state. Lithium has a melting point of 180.5 degrees Celsius, so at 100 degrees Celsius it would still be a solid.