The particles will move slower as energy is lost.
When thermal energy is added to a substance, the particles gain kinetic energy and move faster, increasing the substance's temperature. When thermal energy is removed, the particles lose kinetic energy and slow down, causing the temperature to decrease.
When thermal energy is removed from a particle, its kinetic energy decreases since thermal energy contributes to the overall kinetic energy of particles in a substance. As thermal energy is reduced, the particles move more slowly, resulting in a decrease in their kinetic energy.
When thermal energy is added to matter, the particles within the matter begin to vibrate more rapidly and with greater energy. This increased thermal energy causes the particles to move more freely, which can lead to changes in state (such as melting or boiling) or expansion of the matter.
As an object's temperature rises, its thermal energy increases. This increase in temperature indicates that the particles within the object are moving faster and have more energy. The thermal energy is directly related to the kinetic energy of the particles in the object.
When an object loses thermal energy, its temperature decreases. This is because thermal energy is the energy associated with the random motion of particles within the object, and as these particles lose energy, they move more slowly, resulting in a decrease in temperature.
When thermal energy is added to a substance, the particles gain kinetic energy and move faster, increasing the substance's temperature. When thermal energy is removed, the particles lose kinetic energy and slow down, causing the temperature to decrease.
When thermal energy is taken away from matter particles move more slowly. When thermal energy is added to matter particles move faster.
The particles move faster. Thermal energy is a measure of kinetic energy of molecules.
When thermal energy is removed from a particle, its kinetic energy decreases since thermal energy contributes to the overall kinetic energy of particles in a substance. As thermal energy is reduced, the particles move more slowly, resulting in a decrease in their kinetic energy.
If temperature is decreased, particles have less kinetic energy, causing them to move slower and closer together. This can lead to a decrease in the volume of the substance as the particles lose energy and vibrate with less amplitude.
When thermal energy is added to matter, the particles within the matter begin to vibrate more rapidly and with greater energy. This increased thermal energy causes the particles to move more freely, which can lead to changes in state (such as melting or boiling) or expansion of the matter.
As an object's temperature rises, its thermal energy increases. This increase in temperature indicates that the particles within the object are moving faster and have more energy. The thermal energy is directly related to the kinetic energy of the particles in the object.
When an object loses thermal energy, its temperature decreases. This is because thermal energy is the energy associated with the random motion of particles within the object, and as these particles lose energy, they move more slowly, resulting in a decrease in temperature.
When the temperature is decreased, the average kinetic energy of particles decreases since temperature is directly related to the average kinetic energy of particles. As a result, the pressure and number of collisions between particles will also decrease because particles will have less energy to move and collide with each other.
it gains more energy
When thermal energy is removed from particles in matter, they lose kinetic energy and slow down. This can cause them to arrange into a more ordered structure, leading to a decrease in volume as the particles move closer together. In extreme cases, removal of thermal energy can result in a phase change, such as from a liquid to a solid.
When a solid melts, thermal energy is absorbed to break the bonds between the particles. This increase in thermal energy causes the particles in the solid to gain enough kinetic energy to overcome the attractive forces holding them together, resulting in the solid turning into a liquid.