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Table (2) Avenge (engcouns) () mixture |-A[12] time ( 1.) imibial fare (m/s) I Number initial...
Part 1 Calculations 1. Using the data in Table 2, determine the values of x, y, and z in the rate law for the iodination of acetone. Indicate the mixtures used for each and show all work. Show both the unrounded value and the value rounded to the nearest integer for the values of the exponents calculated. Rate = k[CH,COCHL_[" Exponent "x" Exponent "y" Exponent "z." Table 2. Reaction Conditions and Rate of Reaction. Initial Mixture Initial [H], Initial [12],...
please use the tables to solve the questions
2. Write the rate law for the reaction based on the Part 1 experimentally determined exponents rounded to the nearest integer. Specify the order of the reaction for each of the components and the overall order. 3. Calculate the rate constant, k, with appropriate units for each reaction mixture using the experimental rate law. All work must be shown for Mixture 1 in order to receive complete credit. Complete Table Ri, below....
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Data Table 1 Mixture 4 Mixture1 Mixture 2 Mixture 3 Volume of 4.00M Acetone (C3H6O) Volume of 1.0OM HCI Volume of 0.00500M I Volume of H20 10.0ml 20.0mL 10.0mL 10.0mL 10.0mL 20.0mL 10.0mL 10.0mL 5.0mL 10.0ml 10.0mL 10.0mL 10.0mL 25.0mL 10.0mL 20.0mL 50.0mL 50.0mL Total Volume (mL) 50.0mL 50.0mL ec 2.07m4.2 sec 2-24 mi21344s 24-8 5%0 4-51 mine 270-66e 241 218K-24-852 Reaction Time (s) 24-65C 24 850C Mixture Temperature (°C) Concentration and...