Diffusion occurs when particles are equally distributed. Diffusion is the movement of molecules from an area of high concentration to an area of low concentration through random motion. Given enough time, the concentration of molecules will eventually become even.
Molecules are in constant motion, because of their internal energy. Internal energy is the random motion of atoms and molecules on a microscopic scale. A bathtub full of water may appear perfectly still, but all of the molecules within that water are moving at hundreds of feet per second. However, since the average internal energy of every type of molecule is different, diffusion happens at different rates of speed depending on the makeup of the substances.
Imagine two different gases in a container, separated by a barrier. Carbon monoxide is on one side, and oxygen is on the other. Even though no movement is visible, molecules are constantly colliding with the barrier. When the barrier is removed, molecules from both gases will mix, moving from an area of high concentration to low concentration--carbon molecules will move to the side that was pure oxygen. Eventually, the entire container will be filled with one gas, in this case, carbon dioxide.
The number of possible microstates in a system of 3 particles distributed between 2 boxes is 10.
Mie scattering occurs when particles are larger than the wavelength of light, causing light to scatter in all directions equally. Rayleigh scattering happens when particles are smaller than the wavelength of light, leading to shorter wavelengths being scattered more than longer ones.
Heat passes directly through solids by conduction, which occurs when heat is transferred from one particle to another through direct contact. The particles in the solid material vibrate as they absorb heat energy, passing it on to neighboring particles. This process continues until the heat energy is evenly distributed throughout the material.
Pressure acts equally in all directions due to the random motion of particles in a fluid. When a force is applied to a fluid, the particles transmit this force in all directions, leading to equal pressure exerted on all surfaces in contact with the fluid. This is known as Pascal's principle.
Fluid pressure at a given level in a fluid is distributed equally in all directions. This is known as Pascal's principle, where the pressure is transmitted undiminished in an enclosed fluid. The pressure is dependent on the depth of the fluid, with greater depths resulting in higher pressures due to the weight of the fluid above.
equilibrium
When all particles are distributed equally, they are in a state of equilibrium. This means that there is no net flow of particles from one region to another, and the system is stable. Equilibrium can occur in various systems, such as thermal, chemical, or mechanical equilibrium.
It means they are distributed equally after some time. This is the phenomena of diffusion.
A solution.
an equilibrium
there is provided it is equally distributed
no
no!
no
no
During anaphase of mitosis, sister chromatids are separated and become individual chromosomes that are then distributed equally to the daughter cells. This ensures that each daughter cell receives a complete and identical set of chromosomes.
By distributing them equally in any of these numbers of groups: 7, 11, 13, 77, 91, 143.