Question

Question Which statement accurately describes what happens when ice melts in terms of energy? Responses The ice releases energy which causes chemical bonds to break, changing the ice to water. The ice releases energy which causes chemical bonds to break, changing the ice to water. The ice absorbs energy which causes chemical bonds to break, changing ice to water. The ice absorbs energy which causes chemical bonds to break, changing ice to water. The ice absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a solid to a liquid. The ice absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a solid to a liquid. The ice releases energy which causes the water molecules to have less kinetic and potential energy, changing their configuration from solid to liquid. The ice releases energy which causes the water molecules to have less kinetic and potential energy, changing their configuration from solid to liquid.

Answer 1

Step-by-step explanation:

The statement that accurately describes what happens when ice melts in terms of energy is: "The ice absorbs energy which causes the water molecules to have more kinetic and potential energy, changing their configuration from a solid to a liquid."

When heat energy is added to ice, its temperature increases until it reaches the melting point of 0°C (32°F). At this point, the heat energy is used to break the bonds between the water molecules in the ice crystal structure, allowing the molecules to move more freely. This energy is absorbed by the ice as latent heat of fusion, which increases the kinetic and potential energy of the water molecules and causes the ice to melt and turn into water.