The slope of the tangent line at .050M hypochlorite ions is .0032M/S. This rate is much lower than the rate calculated in part d. In general, the more concentrated a solution the higher the reaction rate because the concentration of hypochlorite ions is the same in both reactions this reaction must have a lower concentration of iodine ions than the reaction in part d.
No, "rate hike" is not a compound word. It is a two-word phrase.
In reactions where surface area is not a factor, such as in homogeneous reactions involving gases or liquids, the reaction rate primarily depends on factors like concentration, temperature, and the presence of catalysts. For instance, in a gaseous reaction, increasing the pressure (which increases concentration) can enhance the rate without any influence from surface area. In these cases, molecules interact uniformly throughout the medium, making surface area irrelevant to the reaction kinetics.
In the expression for the reaction rate, ( K ) represents the rate constant, which is a proportionality factor that quantifies the relationship between the concentration of reactants (in this case, ( a ), ( M ), and ( B )) and the rate of the reaction. The value of ( K ) is dependent on factors such as temperature and the specific reaction mechanism. It reflects the intrinsic properties of the reaction and is essential for predicting how the reaction rate changes with varying concentrations of reactants.
overrated
an enzyme
See details about the Arrhenius reaction at the link below.
No, a catalyst is not a compound itself. A catalyst is a substance that increases the rate of a chemical reaction without being consumed in the process. It remains unchanged chemically at the end of the reaction.
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction
increasing the concentration increases the rate of the reaction
As the temperature increases, the reaction time decreases.
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.
Increasing the concentration of the reactants increases the rate of the reaction.
yes, as the reaction rate increases with increase in the temperature