As ice melts into water, the kinetic energy of molecules increases. The molecules are no longer confined in a rigid lattice structure, so they gain more freedom of movement and increase their kinetic energy. At the same time, the forces of attraction between molecules weaken. In the solid state of ice, the molecules are tightly packed and held together by strong intermolecular forces. However, as ice melts, these forces weaken, allowing the molecules to move more freely and spread apart.
As ice melts into water, the kinetic energy of molecules increases. The molecules gain energy from the surroundings, which causes them to vibrate and move more rapidly. The forces of attraction between molecules, which are stronger in the solid phase, gradually weaken as the ice melts. The hydrogen bonds holding the ice lattice together break, allowing the water molecules to move more freely.
When ice melts into water, the kinetic energy of molecules increases. As the temperature rises, the molecules gain energy, causing them to vibrate and move more rapidly. The forces of attraction between molecules also decrease as the ice lattice breaks apart, allowing the molecules to move more freely. Overall, the transformation from ice to water involves an increase in molecular movement and a decrease in forces of attraction.
