Which statement describes the transfer of heat between two objects? Choose from answers below particles bump in to each other and transfer energy this can be observed directly with the human eye, particles bump into each other and transfer energy they can be detected by a change in temperature, particles bump into each other and transfer matter this can be observed directly with the human eye, particles bump into each other and transfer mater this can be detected by a change in temperature
Particles bump into each other and transfer energy they can be detected by a change in temperature.
The correct statement describing the transfer of heat between two objects is: "Particles bump into each other and transfer energy, which can be detected by a change in temperature."
To understand how heat is transferred between two objects, we need to look at the process of conduction. Conduction refers to the transfer of heat through direct contact between particles. When objects are in contact, the particles of higher energy (higher temperature) transfer some of their energy to particles of lower energy (lower temperature).
In this case, the correct statement mentions that particles bump into each other and transfer energy. This is true because as particles collide, the faster-moving particles transfer some of their kinetic energy to the slower-moving particles, leading to an overall transfer of heat energy.
The statement also correctly mentions that this transfer of energy can be detected by a change in temperature. This means that when heat is transferred between the objects, it causes the temperature of the receiving object to increase while the temperature of the transferring object decreases.
Therefore, the statement "Particles bump into each other and transfer energy, which can be detected by a change in temperature" accurately describes the transfer of heat between two objects.