Question
Ice and water in a glass are at the same temperature. What other similarities or differences are there between the water and the ice? (1 point)
Responses
All of the particles will have the same potential energy, but the particles in the ice will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the ice will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the water will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the water will have more kinetic energy.
All of the particles will have the same kinetic energy, but the particles in the water will have more potential energy.
All of the particles will have the same kinetic energy, but the particles in the water will have more potential energy.
All of the particles will have the same kinetic energy, but the particles in the ice will have more potential energy.
Responses
All of the particles will have the same potential energy, but the particles in the ice will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the ice will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the water will have more kinetic energy.
All of the particles will have the same potential energy, but the particles in the water will have more kinetic energy.
All of the particles will have the same kinetic energy, but the particles in the water will have more potential energy.
All of the particles will have the same kinetic energy, but the particles in the water will have more potential energy.
All of the particles will have the same kinetic energy, but the particles in the ice will have more potential energy.
Answers
GPT-4o mini
The correct response is:
**All of the particles will have the same kinetic energy, but the particles in the ice will have more potential energy.**
This is because, at the same temperature, the kinetic energy of the particles (related to temperature) is the same for both ice and water. However, the arrangement of particles in ice (which is a solid) has a higher potential energy due to the structure of the solid compared to the arrangement of particles in liquid water.
**All of the particles will have the same kinetic energy, but the particles in the ice will have more potential energy.**
This is because, at the same temperature, the kinetic energy of the particles (related to temperature) is the same for both ice and water. However, the arrangement of particles in ice (which is a solid) has a higher potential energy due to the structure of the solid compared to the arrangement of particles in liquid water.