The greater the collision rate, the greater the diffusion rate. As the molecules of the substance that is diffusing are more concentrated, the molecules collide more. As they diffuse and spread apart, there are less collisions and diffusion slows down.
The greater the Kinetic Energy of the Molecules in a Fluid the greater the Diffusion Rate of the Fluid. Those higher energy molecules will be moving faster and therefore diffusing faster.
The greater the kinetic energy, the greater the rate of diffusion.
If you're careful, you'll realize that you always hear of kinetic or potential "energy",but not "power".Potential 'energy' resides in an object or a chemical compound, waiting to bereleased and used. Kinetic 'energy' resides in a moving object on account of itsmotion. Neither of these situations involves 'power'. Power is the rate at whichenergy is moved, used, or converted from one form to another. If potential energyis removed from a physical or chemical bucket where it's been stored, or some ofthe kinetic energy of a moving object is robbed somehow, then the rate at whichthe energy goes somewhere else is power.We go to places where water has a lot of potential energy because of its height,and where the potential energy is about to become kinetic energy as the waterpours over the edge and begins to fall. Then we stick something into the fallingwater that can rob some of that kinetic energy, and we use it to run an electricgenerator. The rate at which we're able to divert kinetic energy from the fallingwater is the hydro power we get.
If the first object is just sitting there and not moving, then it has zero kinetic energy.
Vibrations are a form of kinetic energy, however the rate at which an object is vibrating is usually related to it's temperature.
The relationship is that mechanical energy is the sum of kinetic energy plus potential energy. Think of a brick sitting on the edge of a table. The brick has potential energy proportional to the mass of the brick and the height of the table: E = m g h where m = mass, g = gravitational acceleration, h = height If the brick falls off the edge, it will begin to accelerate at g, the rate of gravitational acceleration (9.8 m/s2). If v is the velocity of the brick, it has kinetic energy proportional to the quare of the velocity: E = (m v2)/2 Just before the brick finally hits the floor, all of its potential engergy has been converted to kinetic energy. During the moment of impact, that kinetic energy is converted to noise and vibration.
The device that transforms from elastic energy to kinetic energy is a spring-loaded mechanism. When you compress or stretch a spring, it stores potential energy in the form of elastic energy. When you release the spring, this stored elastic energy is transformed into kinetic energy as the spring returns to its original shape and moves with velocity. This principle is commonly utilized in various devices such as spring-powered toys, mechanical watches, and even some types of firearms where a spring is used to propel a projectile.
Temperature (heat) is the kinetic energy of the atoms/molecules that make up something. The more kinetic energy they have, the more they move around. As they move around they are "diffusing" in that they may end up in a different place to their start point. So increased temperature increases the rate of diffusion.
The higher the thermal energy of a diffused sample AND its solute, the faster the kinetic rate of motion of the dissolved particles, or atoms, and the faster their rate of diffusion throughout the solute.
Faster diffusion will take place if the surroundings are warmer. Increase in temperature means an increase in molecules' speed (kinetic energy). So the molecules move faster and there will be more spontaneous spreading of the material which means that diffusion occurs more quickly.
As temperature increases, the kinetic energy of the molecules increases, so the rate of diffusion also increases.
Liquids diffuse at a slower rate than do gases because they have much less kinetic energy.
the factors which affect rate of diffusion is the factors that mixing one substance to another.
diffusion, its annoying :) m.kk
A change in medium water to Gelatin would affect the rate of diffusion dramatically. The change from water to gelatin would slow down the rate of diffusion.
An increase of temperature increase the rate of a reaction.
A particles kinetic energy (movement) caused by heat energy as heat energy could be transformed.
As the temperature increases the molecules gets more kinetic energy so increases the reaction rate.
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