Its internal energy increses
It would happen at a much, much slower rate.
Theoretically, every material can be in any phase. However, the pressure and temperature requirements to make this happen are seriously impractical. Some ceramics, for example, are solid even at 1400 degrees Celsius.
It is absolute zero and all molecular motion stops
A temperature of 9 degrees Fahrenheit does not equal 5 degrees Celsius but a change of 9 degrees Fahrenheit equals 5 degrees Celsius. This happen because neither is an absolute scale.
Some things that can happen are: * Nothing at all - some materials can resist fairly high temperatures * The material can change its state of matter - usually from solid to liquid, or from liquid to gas * Some materials undergo chemical changes. This can be seen during cooking.
Nothing much will happen.
There will be little change or effect if the suction temperature of centrifugal compression increases. This is because the gases included incur minimal changes. The required temperature for proper functionality is 43 degrees Celsius.
The temperature of this material decrease.
It begins to boil.
It would happen at a much, much slower rate.
nothing
That's the point of maximum density.
Theoretically, every material can be in any phase. However, the pressure and temperature requirements to make this happen are seriously impractical. Some ceramics, for example, are solid even at 1400 degrees Celsius.
No change will happen. Rajeev jha (delhi)
Both melting point and freezing point define the temperature at which a material changes either from a solid to a liquid or a liquid to a solid. A material freezing or melting is the same just the reverse so they happen at the same temperature. This is sometimes not true when you get supercooling or superheating, but that is more complicated!
In winter if the temperature of surroundings go down by 5 degrees you will feel cold
The water would have evaporated long before the temperature reached 374 degrees.