It takes the addition of 335J of energy to boil a gram of water.

It takes the addition of 335J of energy to melt a gram of water.

It takes the removal of 335J of energy to boil a gram of water.

It takes the removal of 335J of energy to melt a gram of water.

The temperature of the sample remains constant as the sample absorbs heat energy.

The energy of the sample remains constant as the temperature of the sample increases.

The temperature of the sample increases as the energy of the sample increases.

Both temperature and energy of the sample remain constant.

As energy is absorbed, the Ca atoms are ionized into gaseous ions.

The average size of the Ca atoms increases as the particles vaporize.

The temperature of the system increases as energy is absorbed by the system.

The energy of the system increases as the average distance between Ca atoms increases. The temperature remains constant.

Vaporization involves a greater change in molecular potential energy than does fusion.

Vaporization involves a greater change in molecular kinetic energy than does fusion.

Vaporization takes place at a higher temperature than fusion.

The intermolecular forces (IMF) in liquids are greater than the IMF in solids.

The process is exothermic; work is done on the system.

The process is endothermic; work is done on the system.

The process is exothermic; work is done by the system.

Work is done on the system, but the process takes place at a constant temperature, so it is neither exothermic nor endothermic.

13.6 kJ

-13.6 kJ

-40.7 kJ

40.7 kJ

Transferring energy from the surroundings of the system, while the system does work on the surroundings.

Transferring heat from the system to the surroundings, while the system does work on the surroundings.

Transferring energy from the surroundings to the system and doing work on the system.

Transferring heat from the system to the surroundings and doing work on the system.