Final answer:
An increase in concentration leads to more collisions and an increased reaction rate. Rising temperatures cause molecules to have greater velocity and kinetic energy, resulting in more frequent and effective collisions. Temperature is used to measure the average kinetic motion of molecules in a solution.
Step-by-step explanation:
Effect of Concentration on Chemical Reactions
When there is an increase in concentration of reactants in a chemical reaction, more particles are available in a given space. This leads to a higher number of collisions between the particles, and since the rate of reaction is dependent on collision frequency, the reaction rate increases as the concentration increases.
Effect of Temperature on Molecular Behavior
Increasing the temperature causes molecules in a chemical reaction to move with greater velocity, which leads to more frequent and more forceful collisions. This not only raises the number of effective collisions but also helps a greater proportion of these collisions to overcome the activation energy barrier, thus leading to an increase in the reaction rate.
Measuring Average Kinetic Motion
The average kinetic motion of molecules in a solution is typically measured by the temperature of the solution, as it's directly related to the kinetic energy of the particles. The higher the temperature, the greater the kinetic motion of the molecules.