At a higher concentration of sulfuric acid magnesium collides with higher chance of collision which is why it leads to greater reaction rate.
Your statement is partially correct. The concentration of sulfuric acid does indeed affect the rate of reaction with magnesium. However, it is not necessarily due to an increased chance of collision between the two substances.
When the concentration of sulfuric acid is increased, there are more acid particles in a given volume, which means that there is a higher probability of acid particles coming into contact with the magnesium surface. This increased contact leads to a higher rate of reaction. Essentially, a higher concentration provides more acid particles that can react with magnesium, increasing the likelihood of successful collisions and speeding up the reaction.
It's important to note that the rate of reaction is not solely determined by collision frequency, but also by other factors like temperature, surface area, and the presence of catalysts.
Yes, a higher concentration of sulfuric acid can lead to a greater reaction rate when reacting with magnesium due to the increased chance of collision between the reactant particles.
In a chemical reaction, the rate of reaction depends on the frequency and effectiveness of collisions between reactant particles. When the concentration of sulfuric acid is increased, there are more sulfuric acid particles available in the solution. This higher concentration results in an increased number of collisions between magnesium and sulfuric acid particles.
With more collisions occurring, the chances of an effective collision are also increased. In an effective collision, the reacting particles collide with enough energy and in the correct orientation to break the existing bonds and form new bonds, resulting in a chemical reaction. Therefore, a higher concentration of sulfuric acid leads to a greater reaction rate with magnesium due to the increased frequency of collisions and more chances for effective collisions to occur.