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Increasing the concentration of the reactants will increase the rate of collisions, but will not change the fact that most of the time particles are in motion and not colliding.
According to the kinetic molecular theory, gases consist of particles in constant random motion. Two postulates can explain why a sample of a gas does not cool down: First, the particles have a range of speeds, so while some may collide and transfer energy, others will collide and gain energy. Second, the average kinetic energy of the gas particles remains constant as long as the temperature is constant. Therefore, while collisions may occur and redistribute the energy, the overall average kinetic energy, and hence temperature, of the gas remains constant.
Potential energy is when the particles are at rest and kinetic energy is when the particles are in motion.
Mechanical energy depend on motion and height. For example- a flying bird.
Brownian motion is the random moving and mixing of particles.
Kinetic energy of a substance is the energy of motion of its particles. Temperature is a measure of this quality. When you increase the kinetic energy of a substance, you increase the motion and collisions between its particles, and its temperature goes up.
motion
Brownian motion. This is random motion of micro particles resultimg from collisions between the particle in question and other particles in the surrounding medium.
thermal energyInternal Energy.
Energy in motion is called kinetic energy.
Brownian motion is the random motion of particles in a solution resulting from their collisions. Diffusion happens as more and more collisions happen between the particles, they become more interspersed with each other.
Increasing the concentration of the reactants will increase the rate of collisions, but will not change the fact that most of the time particles are in motion and not colliding.
Since heat and energy are the same it is called Kinetic energy. The temperature is what makes up the average particles in motion which are in all atoms.
According to the kinetic molecular theory, gases consist of particles in constant random motion. Two postulates can explain why a sample of a gas does not cool down: First, the particles have a range of speeds, so while some may collide and transfer energy, others will collide and gain energy. Second, the average kinetic energy of the gas particles remains constant as long as the temperature is constant. Therefore, while collisions may occur and redistribute the energy, the overall average kinetic energy, and hence temperature, of the gas remains constant.
This transfer of heat is called convection.
thermal energy
Temperture