There is little movement once it reaches equillibrium. They continue to move regularly.
that happens when osmosis occurs
The movement of the molecules making up the solid increases.
They begin to move faster. The increased temperature increases the energy of the molecule.
When pressure decreases, the molecules have more space to move around and therefore tend to move faster and more freely. This can lead to an increase in their average kinetic energy.
When molecules change from a liquid to a solid, they lose energy and begin to move more slowly. As the temperature decreases, the molecules arrange themselves into a more ordered and fixed structure, resulting in a solid state. This transition reduces the freedom of movement significantly, causing the molecules to vibrate in place rather than move freely as they do in a liquid.
As the temperature is lowered, the movement of the molecules decreases.
dont no
When there is no concentration gradient, there is no net movement of particles from one area to another. This means that the particles are evenly distributed in the system, leading to a state of equilibrium where there is no further movement of particles.
No, molecular motion does not stop when diffusion stops. Molecular motion refers to the movement of molecules within a substance, which continues even when there is no net movement of molecules from one region to another (diffusion).
increases
The molecules start moving faster and spread out, meaning that the air is warm/hot.
that happens when osmosis occurs
The movement of the molecules making up the solid increases.
They begin to move faster. The increased temperature increases the energy of the molecule.
Evaporation explanation is that the kinetic energy of molecules at the surface allows some molecules to escape in the atmosphere.
The movement of molecules down a concentration gradient happens through a process called diffusion. This is when molecules move from an area of high concentration to an area of low concentration, driven by the natural tendency of particles to spread out evenly. This movement continues until the concentration is balanced throughout the system.
Equillibrium in a reaction has occured when the concentration of compounds remain unchanged.