The more energy a substance has the faster its particles in solution will move.
As energy is released, air particles gain kinetic energy and move faster, leading to an increase in temperature. This causes the air particles to expand, become less dense, and rise due to convection currents.
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.
As the sound wave travels through the air, the air particles vibrate back and forth in the direction of the wave, transferring the sound energy.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
Sound is transmitted from a source to the surrounding air particles, which vibrate or collide and pass the sound energy along to our ears. Without any particles to vibrate we wouldn't hear the sound.
It gets colder. And the energy increases so the particles move further apart.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
As air particles get colder, they lose kinetic energy and move more slowly. This causes the pressure inside the ball to decrease because there are fewer collisions between the particles and the walls of the ball.
During evaporation, the particles of a liquid gain enough energy to escape from the surface of the liquid and become vapor. These vapor particles then mix with the air and disperse into the surrounding environment.