It increases the collisions that have enough energy to react (apex)
it increases the kinetic energy of the molecules -apex
Increasing the temperature causes the particles to move faster, colliding with other particles of the substance that it is reacting with more frequently, increasing the rate of reaction.
It increases the collisions that have enough energy to react.
It provides energy to overcome the activation energy.
An increase in temperature or a decrease in volume would call the pressure to increase. Apex- increasing the number of gas particles
In general, but not always, increasing the temperature will increase the rate of the forward reaction. This is because an increase in temperature increases the speed at which the molecules move, increasing the kinetic energy, and thus making it easier to reach the activation energy. Of course, this is true only for endothermic reactions. If the reaction is exothermic, then increasing the temperature will slow down the forward reaction.
No - except in extremes and as part of nuclear processes.
An increase in the temperature usually increases the rate of reaction by increasing the number of collisions.
It provides energy to overcome the activation energy.
Increasing the temperature the number of particles remain constant and the pressure increase.
An increase in temperature or a decrease in volume would call the pressure to increase. Apex- increasing the number of gas particles
In general, but not always, increasing the temperature will increase the rate of the forward reaction. This is because an increase in temperature increases the speed at which the molecules move, increasing the kinetic energy, and thus making it easier to reach the activation energy. Of course, this is true only for endothermic reactions. If the reaction is exothermic, then increasing the temperature will slow down the forward reaction.
No - except in extremes and as part of nuclear processes.
Increase in temperature cause the particles to move faster, which in turn would increase the number of collisions. If the volume did not change and the temperature increased, the pressure would also increase.
An increase in the temperature usually increases the rate of reaction by increasing the number of collisions.
As kinetic energy, and therefore temperature increases, the number of effective collisions which result in sufficient activation energy also increases, which is why reactions happen at a faster rate at higher temperatures.
It increases the kinetic energy of the molecules (APEX)
When the number of particle collisions increase the rate of chemical reactions also increase.
For most reactions which involve liquids or gases, increasing the concentration of the reactants also increases the rate of reaction. This is because the number of effective collisions are also increased which speeds up the reaction.
For most reactions which involve liquids or gases, increasing the concentration of the reactants also increases the rate of reaction. This is because the number of effective collisions are also increased which speeds up the reaction.