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Pressure in a constant volume (container) is directly proportinal to the number of moles and to the absolute temperature (in K)p :=: n * T with ':=:' meaning 'proportianal to' (not: equal to!)The number of collision is related to and determined by the pressure-value only! (pressure is the result ofcollisions only)
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
Increasing the temperature the number of particles remain constant and the pressure increase.
because according to kinetic theory number of collisions exert force per unit area(pressure) so when the temperature is constant along with volume then the same number of collisions are taking place per unit time thats why pressure remains constant....
The explanation is: increasing the pressure is equal to an increasing of concentration of reactants.In a concentrated environment the possibility of interactions between molecules is higher.And the consequence of more collisions is the increasing of reaction rate.
It increases the number of collisions.
Pressure in a constant volume (container) is directly proportinal to the number of moles and to the absolute temperature (in K)p :=: n * T with ':=:' meaning 'proportianal to' (not: equal to!)The number of collision is related to and determined by the pressure-value only! (pressure is the result ofcollisions only)
When pressure double, the volume halves. However this is only true if the number of molecules and the temperature are both in a constant state.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
If a fraction's denominator is increased, the number gets smaller. If a fraction's denominator is decreased, the number gets bigger.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
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.
they decreased in size but did not decrease in number
Increasing the temperature the number of particles remain constant and the pressure increase.
As the volume is decreased, the same number of molecules of air have a smaller space to move freely in. The number of collisions of molecules of air with the walls of the container per unit time increases. Since pressure is the force exerted over an area, the pressure increases.
The probability that a chemical reaction to occur increases.
Proton number is decreased by two while mass number is decreased by four. Since alpha particle is similiar to helium nucleus.