The more collisions the faster the rate.
It leads to more frequent collisions, which increase reaction rate.
the rate is affected by concentrations raised to the power of an exponent
The frequency of collisions is changed.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
If the pressure increase the number of intermolecular collisions increase and so the reaction rate. This is valid for gases.
It increases the number of collisions at the right orientation.
Concentration affects the rate of a chemical reaction by influencing the number of reactant particles present in a given volume. Higher concentrations increase the likelihood of collisions between reactant molecules, leading to a greater frequency of effective collisions. This typically results in a faster reaction rate. Conversely, lower concentrations reduce the number of collisions, slowing the reaction.
The frequency of collisions is changed.
More collisions between particles of matter means a faster reaction rate. When you increase the kinetic energy of a sample of matter, you increase the number of particle collisions, as well as the force with which they collide. This in turn increase the rate of reaction.
Yes, the temperature of the water can affect the rate of the reaction for blobs in a bottle. Higher temperatures typically increase the rate of reaction because more collisions occur between the reactant molecules, leading to a faster reaction. Conversely, lower temperatures can slow down the reaction rate.
rate of collisions between particles. average velocity of the particles.
More collisions is an advantage.