Imagine the molecules are like soccer balls and the container is like a room. If you're kicking 1 ball around the room at only 1 other ball, the chances of you randomly hitting one ball with the other are slim (low concentration). If you're kicking 200 balls at the same time at another 200 balls in the same room, your chances of 1 ball hitting another are massively increased (high concentration). More balls, more reactions.
It leads to more frequent collisions, which increase reaction rate.
The rate of chemical reaction increase as the concentration of the chemicals increase. The reason is obvious. There is more opportunity for the atoms to come in contact with each other. This facilitates rate of chemical reaction.
Increasing the concentration of either SO2 or O2 would drive the reaction towards the formation of more SO3, resulting in an increase in the concentration of SO3. Increasing the temperature, however, would cause the greatest increase in the concentration of SO3 as it favors the forward reaction which produces more SO3.
increasing the concentration in a rate of reaction makes the reaction take place faster because if there is more initial particles then there is more particles to react
One factor that influences reaction rate is temperature. Generally, an increase in temperature leads to an increase in reaction rate as higher temperatures result in particles having more energy and colliding more frequently, leading to more successful collisions.
If you add a higher concentration of acid, or increase the temperature, the reaction will go faster.
The concentration of acid is very important when you are thinking about the rate of reaction. The more concentrated the acid is, the more particles there are to react with the other substance. This results in a faster and more vigorous reaction.
The more concentrated the solution of reactants, the more the reaction wants to push right making more products.Same goes vice-versa; if there's more products, then the reaction will push left producing more reactants.
Increasing the concentration of reactants generally increases the rate of a reaction because there are more reactant particles available to collide and form products. This leads to more frequent and successful collisions, ultimately speeding up the reaction time.
Because the concentration is directly proportional to the rate of reaction (the rate will increase but k will remain the same), with an increase in concentration the activation energy will stay because the activation energy does not account for the concentration.
The effect of concentration of reactants on rate of reaction depends on the ORDER of the reaction. For many reactions, as the concentration of reactants increases, the rate of reaction increases. There are exceptions however, for example a zero order reaction where the rate of reaction does not change with a change in the concentration of a reactant.
rate laws a+the higher the concentration = more particles = higher chance of a collision happening = higher/faster reaction rate