That sounds like a description of heat conduction.
Heat is transferred by conduction when the particles are moving and contacting (or colliding with) each other.
Conduction
"conduction"
Conduction
when the particle do not collide with the wall of the container or with the other particles is called free settling the suspended particles in the medium do nor effect it and when the particle collide with the other particles and with the wall of the container an d collides with the suspended particles is called hindered settling
It is the process of transfer of heat from one place to other with actual movement of heated particles. Convention of heat take place in fluids and gases .
The transfer of energy by electromagnetic waves is called electromagnetic radiation. Light, radio waves and X-rays are a few other examples of this radiation phenomenon. The Transfer process is the "flow" of particles from one location to another. The best visual example is the transfer of "heat" from one source to another.
The gas molecules are constantly in motion, colliding with each other and the walls of the ball. The pressure inside the ball is also much greater than the pressure outside the ball. When there's a hole in the ball, the molecules keep colliding, and some make there way out through the hole. Remember that the molecules want to go to the area of lowest pressure so that they can be at equilibrium.
Brownian movement, Brownian motion, or pedesis is the random movement of particles suspended in either a liquid or a gas. This is the movement that you see when sunlight is streaming through a window and you see the dust particles randomly moving. This movement helped to prove the existence of atoms and molecules. Many scientists, including Albert Einstein, used this motion to describe movements in the stock market, among other things!
Conduction.
By colliding with other atoms, they share electrons and make bonds.
It's called conduction - although if you were to examine the material on a molecular level you would still see the molecules vibrating and colliding with each other to transfer the heat.
The answer depends on the nature of the particles and the energy of the collision. Large uncharged particles (eg billiard balls in a typical mechanics problem), colliding with moderate amounts of energy will probably bounce off one another. Their behaviour after impact will obey Newton's laws of Motion. A collisoin with more energy might result in one or both particles breaking.An electron colliding with a proton will leave a neutron and a release of energy in the form of a photon. Collisions between protons will create a range of other sub-atomic particles - the exact particles will depend on the energy of the colliding protons.
Calorthic
When temperature increases the particles of an object gain more heat energy, therefore move faster colliding with each other more.
What you did to avoid colliding with other boats
That would be a description of heat transfer by conduction.
conduction
The type of heat transfer by direct contact is called conduction. Heat is transferred through a solid material or between two objects in direct contact with each other. This occurs as the particles in the material or objects collide and transfer energy to each other.
The transfer of energy by electromagnetic waves is called electromagnetic radiation. Light, radio waves and X-rays are a few other examples of this radiation phenomenon. The Transfer process is the "flow" of particles from one location to another. The best visual example is the transfer of "heat" from one source to another.
when an employee is ordered to join duties at other station, this is called transfer but when he reports for duties from other station is called posting.