An ice cube is placed on a metal block that is at a room temperature of 30oC. Which statement describes the transfer of heat between the ice cube and metal block?(1 point) Responses Heat is transferred from the air and metal to the ice cube, and the ice melts. Heat is transferred from the air and metal to the ice cube, and the ice melts. Heat is transferred from the air to the ice cube, and the ice melts. Heat is transferred from the air to the ice cube, and the ice melts. Heat is transferred from the ice cube to the metal block, and the ice melts. Heat is transferred from the ice cube to the metal block, and the ice melts. Heat is transferred from the ice cube to the air, and the ice melts.
Heat is transferred from the metal block to the ice cube, and the ice melts.
The correct statement is: Heat is transferred from the metal block to the ice cube, and the ice melts.
The correct statement that describes the transfer of heat between the ice cube and metal block is: "Heat is transferred from the metal block to the ice cube, and the ice melts."
Explanation:
When an ice cube is placed on a metal block at a temperature of 30°C, the metal block will be at a higher temperature than the ice cube. Heat always flows from a higher temperature object to a lower temperature object, so in this case, heat will transfer from the metal block to the ice cube. This transfer of heat causes the ice cube to absorb the heat energy, raising its temperature and causing it to melt. Therefore, the correct statement is that heat is transferred from the metal block to the ice cube, and the ice melts.