"thermal"
when heat is added to cold water, the particles starts to move around. The particles now have more energy for motion. The temperature of the water also rises from the movement of the particles.
Random movement of a suspense particles in the swamp of smaller particles can be observed through motion of pollen or dust in water using Microscope. A more simple prove would be diffusion test using dye in the still water. If the molecules of the water isn't move then there can't be such thing as dissolving of dye without stirring. Trace of dye dissipation in water can show how the water molecules motion cause the dye to move with it.
water particles and the transfer of energy.
for a liquid to freeze , the attraction between the particles must overcome the motion of the particles.
Water waves are transverse waves this means that the motion of the particles travels perpendicularly to the direction of the wave travel
Molecules move faster when heat energy is added to to water. The water temperature mayincrease or some or the molecules may get enough energy to change phase from solid to liquidor from liquid to vapor.
The motion of the particles in a water wave decreases as depth increases because the energy from the wave at the surface losses it's power.
The motion of the particles in a water wave decreases as depth increases because the energy from the wave at the surface losses it's power.
when heat is added to cold water, the particles starts to move around. The particles now have more energy for motion. The temperature of the water also rises from the movement of the particles.
One example of motion is a ball rolling down a hill. During such motion, the ball's kinetic energy is increasing and its potential energy is decreasing.
when heat is added to cold water, the particles starts to move around. The particles now have more energy for motion. The temperature of the water also rises from the movement of the particles.
Random movement of a suspense particles in the swamp of smaller particles can be observed through motion of pollen or dust in water using Microscope. A more simple prove would be diffusion test using dye in the still water. If the molecules of the water isn't move then there can't be such thing as dissolving of dye without stirring. Trace of dye dissipation in water can show how the water molecules motion cause the dye to move with it.
water particles and the transfer of energy.
I would guess that you are referring to Brownian motion. When a fine dust is spread on the surface of water you can observe the motion of the dust particles through a microscope as they are struck by water molecules.
for a liquid to freeze , the attraction between the particles must overcome the motion of the particles.
Water waves are transverse waves this means that the motion of the particles travels perpendicularly to the direction of the wave travel
"Brownian motion" is the seemingly random motion of particles. Small particles, suspended in water, seem to drift and jerk around randomly. Why should they do this? The most obvious explanation is that they are being constantly bombarded by even smaller particles: those that make up the liquid itself.