You need to know the initial temperature.
physical energy
heat it up, add energy to it
0
freezing
It is heat energy
Flowing water has kinetic energy associated with that fact that it is moving. It is a fact that moving water is more resistant to freezing than still water.
None. When water freezes it _releases_ energy (the heat of fusion, 333.55 kj.kg). To keep it from freezing, simply keep the energy constant. If the ambient temperature is below zero C (32 F) the rate of energy loss will depend on the temperature of the air and the thermal resistance (insulation value) of the water's container, and other factors such as wind speed. In those conditions you must replace the energy lost to prevent the water from freezing. However, the energy needed depends on the rate of loss, not on the amount of water.
Yes. When ice is converted to water, thermal energy is required. When the water is converted back to ice, the same amount of thermal energy is released.
Freezing is exothermic as a substance loses heat to its surroundings when it freezes.
Lol, if you mean water then the following is whats going on: freezing a particle involves removing energy, and when energy is removed the molecules in the water slow their vibrations. So Basically the particles slow down because the freezing or the water has drained a sufficient amount of kinetic and potential energy.
In the water cycle heat energy is released during the processes of condensation and freezing. 334 J/g is released during freezing and 2260 J/g is released during condensation.
Get out of the freezing water.