The rate law that is consistent with the proposed mechanism is determined by the slowest step in the reaction, known as the rate-determining step. This step will dictate the overall rate of the reaction and the rate law will be based on the reactants involved in this step.
The mechanism that is consistent with the rate law is the one that matches the experimentally determined rate equation.
The mechanism that is consistent with the observed rate law is the one that matches the experimental data and mathematical expression for the rate of the reaction.
To determine the rate law from a given mechanism, you can use the slowest step in the reaction as the rate-determining step. The coefficients of the reactants in this step will give you the order of the reaction with respect to each reactant. This information can then be used to write the overall rate law for the reaction.
The rate of a reaction is calculated using the concentrations of reactants.
To determine if the derived rate law for a reaction between chlorine and chloroform is acceptable, you would need to confirm its consistency with experimental data. It should also be based on the stoichiometry of the reaction and any proposed mechanisms. Additionally, the rate law should be able to predict the experimental rate of the reaction under various conditions.
The mechanism that is consistent with the rate law is the one that matches the experimentally determined rate equation.
The mechanism that is consistent with the observed rate law is the one that matches the experimental data and mathematical expression for the rate of the reaction.
To determine the rate law from a given mechanism, you can use the slowest step in the reaction as the rate-determining step. The coefficients of the reactants in this step will give you the order of the reaction with respect to each reactant. This information can then be used to write the overall rate law for the reaction.
Law + tools = Mechanism
The rate of a reaction is calculated using the concentrations of reactants.
One way to derive the rate law for the decomposition of ozone involves assuming a simple two-step mechanism where ozone decomposes into an intermediate, followed by the decomposition of the intermediate into oxygen. By assuming the intermediate is in equilibrium with ozone, you can express the rate of formation of the intermediate in terms of the rate of formation of ozone. Then, using the rate of decomposition of the intermediate, you can derive the overall rate law for the reaction.
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To determine if the derived rate law for a reaction between chlorine and chloroform is acceptable, you would need to confirm its consistency with experimental data. It should also be based on the stoichiometry of the reaction and any proposed mechanisms. Additionally, the rate law should be able to predict the experimental rate of the reaction under various conditions.
The zero order rate law in chemical kinetics is significant because it shows that the rate of a reaction is independent of the concentration of reactants. This means that the rate of the reaction remains constant regardless of how much reactant is present. This can be useful in determining the overall reaction rate and understanding the reaction mechanism.
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