ya when ice convert to water then it flows.......
The kinetic energy of water molecules in ice is less than the kinetic energy of watermolecules in water and that is less than the kinetic energy of water molecules in stream.That is because the range of temperatures where ice exists, -273C to 0C, is less than the range where water exists, 0C to 100C, which is less than the range where water gas exists, 100C and up. Kinetic energy climbs continuously with temperature through each phase.Kinetic energy is the energy of motion, KE=mv2/2.All molecules have an average kinetic energy proportional to the absolute temperature, particularly, Translational kinetic energy =3kT/2.There is no maximum. Increasing temperature increases molecular kinetic energy until the energy destroys the molecule and then the fragments will have an average kinetic energy 3kT/2.
more
the same
I suppose the temperature would increase very briefly depending on how violently the ice was added. Carefully and slowly adding ice to water in order to minimize the water's displacement would, by definition, add kinetic energy to the localized water, but probably not enough to heat the water up. That kinetic energy would go towards breaking more bonds from the ice. However if you propelled the ice really fast into the water, one can only assume that the instantaneous increase of kinetic energy gained by the water would be greater than the kinetic energy being used to melt the ice, therefore (briefly) increasing the temperature.
Frozen water (ice) is a solid. when ice melts the water molecules gain kinetic energy and are able to break free of their rigid hydrogen bonding. This is the definition of a liquid!!! The order goes from most to least kinetic energy; plasma, gas, liquid, solid, absolute zero. Before the ice is to be melted that is called potential energy.
Erm, it depends how fast it is moving! Kinetic energy is energy due to motion. If the ice cube is stationary, then it has no kinetic energy.
kinetic energy
kinetic energy
No, not kinetic energy.
It contains kinetic energy mainly. Potential energy is relative to its position
Yes.
the particles in copper only have kinetic energy once it has been heated as this causes the particles to move around (kinetic energy) knocking its neighbour causing heat
yes... if it is just sitting there, it has potential energy..... if it is falling into a glass, it has kinetic energy
it really depends. For example, and ice cube has low kinetic where as steam has high kinetic energy
No. The molecules of hot water contain greater kinetic/thermodynamic energy.
kinetic
Heat isn't a form of kinetic energy it is the result of kinetic energy.