Kinetic energy is possessed by virtue of the motion of particles.
In solids, particles are tightly packed, so the can not move easily(hence the rigidity).
In gases, particles are loosely packed, so they can move more freely(hence its ability to flow).
Therefore, KE of particles increases when a solid changes to gas.
Mitochondria.
The average kinetic energy of the particles falls.
When a solid changes to a liquid, the particles gain enough kinetic energy to overcome the forces holding them in a fixed position. This causes the particles to break free from their fixed arrangement and move more freely, resulting in a less organized and more fluid arrangement.
The particles move faster. Thermal energy is a measure of kinetic energy of molecules.
Usually, the kinetic energy of the individual particles increases. It's also possible for the particles to gain potential energy - this happens when a substances changes its state of matter. For example, when you add heat to ice (at zero degrees), it will melt, converting into water (also at zero degrees).
Kinetic energy is moving energy
When particles collide and transfer energy or momentum, they can cause changes in the motion or properties of the particles involved. This can result in things like changes in speed, direction, or even the creation of new particles.
As energy is lost, the particles slow down and move closer together, causing the space between them to decrease. This is due to the conservation of momentum and energy, which cause the particles to interact more closely in order to dissipate the energy that is being lost.
the particle loses the energy and it goes into surrounding environment
As kinetic energy increases, the particles in an object move faster and with greater speed. This results in increased motion and collisions among the particles, causing them to vibrate or rotate more vigorously. Ultimately, this leads to an overall increase in the temperature and internal energy of the object.
in my opinion, I don't really know
potential and kenitic energy and mecanical and hooke's law
The particles of the substance gain kinetic energy as they absorb heat energy. Eventually there is enough kinetic energy for the particles to escape the liquid phase, forming the gas phase.
As you add energy to particles, they gain kinetic energy and move faster. This increased motion leads to higher temperatures and can cause phase changes, such as melting or boiling. Ultimately, adding energy to particles can break bonds between them and cause them to dissociate or become ionized.
When matter is heated, its particles gain kinetic energy, causing them to move faster and vibrate more. This increase in energy leads to a rise in temperature and can result in changes in the physical state of the matter, such as melting or boiling. The energy that is added to the matter during heating is stored within the particles as heat energy.
When you add energy to a system, its temperature increases and the particles within it move faster. This can result in an increase in kinetic energy and changes to the system's physical state. Conversely, when you subtract energy from a system, its temperature decreases and the particles move more slowly, potentially causing changes in phase or state.
When energy is transferred to air, the particles in the air gain kinetic energy and move faster, increasing their temperature. This can cause the air to expand and become less dense, leading to changes in pressure and volume.