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.
More pressure means more gas; more gas means more particles to react, so a faster rate.
it increases the number of collisions
It increaces the number of
It will increase the rate of the reaction because more particles will be exposed and they will be able to react.This decreases the time to react.
The likelihood that two particles will collide in a given time increases. The number of particles per volume increases.
Yes they can increase. They are increasing in their life time.
As the temperature increases, the reaction time decreases.
For endothermic reactions the increase in temperature increases the K.E of the molecules and numbers of effective collisions per unit volume per unit time among reacting molecules becomes increased so rate of the reaction also becomes increased.
Increasing the concentration of the reactants the rate of reaction increase.
It will increase the rate of the reaction because more particles will be exposed and they will be able to react.This decreases the time to react.
Cooking involve chemical reactions; but the reaction rate depends on the pressure: increasing the pressure the reaction rate is increasing. Also dissolution of some components of foods depends on the pressure, in a similar relation.
Yes, because as pressure increases, the collisions between gas particles would occur more frequently and with more force. Therefore, the amount of potential energy would increase, and it would take a shorter time for the activation energy to be reached.
Agitation affects reaction rate by increasing the amount of collisions the atoms make with one another, therefore speeding up the reaction rate.
Length is measured in time. So, you are increasing the time of the workout.
The likelihood that two particles will collide in a given time increases. The number of particles per volume increases.
you cannot increase the pressure from a gravity tank by changing the pipe size, only the volume of water that will flow in a given period of time. The only way to increase the pressure is to increase the difference between the elevation of the tank and the elevation of the spigot. Many people will confuse an increase in water volume with an increase in water pressure, because, in both cases, more water will flow in a given period of time. ...moreincreasing the pipe size can reduce elevation loss due to friction which can translate in lay mans terms as an "increase in pressure"
it will increase the time of the chemical reaction
Yes they can increase. They are increasing in their life time.
A generic rate of reaction equation is rate=k[A], where k is the rate constant, [A] is the concentration of some reactant A. Just looking at this, we see the rate will be influenced by the [A]. The more you have, the faster the rate, and vice versa. rates are "things" over time. So it also makes sense that time affects the the rate of a reaction. If the given reaction is endo- or exo- thermic, the temperature will also play a role in the rate of the reaction. If the reaction deals with gases, a higher temperature will increase the average molecular velocity, increasing the energy of the particles (collision theory) and increasing the rate of reaction. Pressure is yet another influence, especially when dealing with gases. A higher pressure means more molecules have a chance to react (to meet up with the other reactant(s)). And since pressure and volume go hand in hand, volume also plays a role.
As the temperature increases, the reaction time decreases.