The higher the temperature, the more kinetic energy the particles will have, so they will move and mix more quickly. The greater the surface area, the faster the rate of diffusion.
Terms in this set (7) How does the temperature relate to the motion of particles? the hotter the temperature, the faster the particles move around/diffuse. ... the hotter the temperature was, the faster it took for the process to reach dynamic equilibrium.
With an increase in temperature, the particles move faster as they gain kinetic energy, resulting in increased collision rates and an increased rate of diffusion. ... With an increase in temperature, the particles gain kinetic energy and vibrate faster and more strongly.May 29, 2020
Higher temperature increase the energy and therefore the movement of the molecules, increasing the rate of diffusion. Lower temperatures decrease the energy of the molecules, thus decreasing the rate of diffusion. As the density of a solvent increases, the rate of diffusion decreases.
As the temperature of a gas increases, the kinetic energy of the particles increases, causing the particles to move faster and farther apart.
If the temperature is increased the particles gain more kinetic energy or vibrate faster. This means that they move faster and take more space. If the temperature is decreased,it is the opposite. Particles move slower, because of less energy.Jul 14, 2017
In the kinetic theory of gasses, increasing the temperature of a gas increases in average kinetic energy of the molecules, causing increased motion. This increased motion increases the outward pressure of the gas, an expected result from the ideal gas equation PV=NkT.
This (random) thermal motion of the particles due to the temperature is also called Brownian motion. ... The higher the temperature, the faster the diffusion will be, because the stronger the molecule movement and thus the “mixing”.Jan 28, 2019