Using a spectrophotometer, it is possible to monitor the reaction by measuring the changing concentration of reactant Group 1 or product Group 1 as it progresses. First, the extinction coefficient (8) must be determined for all visībly active species by measuring the Group 3 of each on a spectrophotometer at Group 4 concentrations. These measured values would Group 2 for the reactant and Group 2 for the product as the reaction progresses in accordance with the Beer-Lambert law (A = sbc). Comparing how the concentration of the product changes with respect to the concentration of the reactant would allow for the exponent Group 1 to be determined.

Using a spectrophotometer, it is possible to monitor the reaction by measuring the changing concentration of reactant Group 1 or product Group 1 as it progresses. First, the extinction coefficient (8) must be determined for all visībly active species by measuring the Group 3 of each on a spectrophotometer at Group 4 concentrations. These measured values would Group 2 for the reactant and Group 2 for the product as the reaction progresses in accordance with the Beer-Lambert law (A = sbc). Comparing how the concentration of the product changes with respect to the concentration of the reactant would allow for the exponent Group 1 to be determined.

Chemistry: The Molecular Science

5th Edition

ISBN:9781285199047

Author:John W. Moore, Conrad L. Stanitski

Publisher:John W. Moore, Conrad L. Stanitski

Chapter11: Chemical Kinetics: Rates Of Reactions

Section11.1: Reaction Rate

Problem 11.2CE: Instantaneous rates for the reaction of hydroxide ion with Cv+ can be determined from the slope of...

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