Depending on the physical properties of that metal and the environment, as well as the scale used, it may change state, it may react, or it may do nothing. Examples of all are: * Sodium melting at 98oC and oxygen boiling at 90K - if heated from below these points to 100 degrees, they would change state; * Some metals begin oxidising at temperatures around 100oC; * Most metallic elements will not do anything as they approach, reach or surpass the 100-degree mark (other than get hot).
The water becomes 100 degrees and is warm to the touch.
The boiling point of water is 100 degrees C = 212 degrees F.
If the water is actively boiling, it is never more than 100 degrees Celsius (212°F).When water is not boiling (because of pressure or lack of nucleation points), it can become hotter than 100°C, a process known as superheating.
Answer: 100 K = -173 C = -279.4 ºF The ratio of degrees between Kelvin and Celsius is 1:1, however the difference in the scale is 273 degrees. Example: The freezing point of water: 32 degrees Fahrenheit 0 degrees Celsius 273 degrees Kelvin The boiling point of water: 212 degrees Fahrenheit 100 degrees Celsius 373 degrees Kelvin To convert Kelvin to Celsius simply subtract 273 from the Kelvin temperature.
The boiling point of water is dependent on the atmospheric pressure. If you increase the pressure - for example, in a pressure cooker - the boiling point can be raised considerably. At high altitudes, the boiling point is significantly lower. At sea level, pure water boils at 212 degrees Fahrenheit which is the same as 100 degrees Celsius.
It boils
When ice is heated from -1 degrees to 0 degrees, it melts into water. As the temperature continues to rise from 0 degrees to 100 degrees, the water heats up and eventually boils at 100 degrees, turning into water vapor. At 101 degrees, the water vapor will continue to increase in temperature.
100 degrees
100 degrees celsius
When sulfur is heated from 100 degrees C to 120 degrees C, it undergoes a physical change from solid to liquid as it melts. Sulfur has a melting point of 115.21 degrees C, so at 120 degrees C it would be in the liquid state.
Wood would expand about 0.3 millimeters if heated to 100 degrees
it will boil once it reaches 100 degrees Celsius
Ethanol is a liquid at 100 degrees Celsius. It boils at 78.4 degrees Celsius, so at 100 degrees Celsius it would be in a gaseous state if it were heated beyond its boiling point.
When a sample of water is heated past 100 degrees Celsius, it is past its boiling point. At this temperature, water changes from a liquid to a gas.
Heating will cause the gas to expand; or, if the container does not permit expansion, for the pressure of the gas to increase. Other changes to the gas depend on which gas is being heated.
100 degrees Celsius is the boiling point of water, which happens to be 212 degrees Fahrenheit at standard pressure
The water becomes 100 degrees and is warm to the touch.