1. Determine the concentration of each component (C₂) in the final mixture for each run (refer to Table 4-1) for the total volume (V₂) of the mixture, and the initial concentration (C₁) and volume (V₁) of each component).

C₁V₁ = C₂V₂

2. Calculate for the reaction rate per run using the concentration of iodine and time elapsed.

reaction rate = [I₂] in the final mixture/time elapsed

3. Determine the reaction order with respect to l₂. Also determine the reaction order with respect to C₃H₆O and the reaction order with respect to HCI. Round off your answers to the nearest whole number.

4. Calculate for the rate constant for each run using the reaction orders obtained (use rounded off values of reaction orders).

5. Take the average of the rate constants.

6. Determine the rate law of the reaction.

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Table 4-1 Volume, mL Run 4.00 M 0.00120 M I2 1.00 м HC Starch dH20 acetone solution 1 2.00 2.00 2.00 2.00 17.00 2 4.00 2.00 2.00 2.00 15.00 3 2.00 2.00 4.00 2.00 15.00 4 2.00 4.00 2.00 2.00 15.00 5 3.00 3.00 3.00 1.00 15.00 Table 4-2 Time elapsed (sec) Run 1 257 2 131 130 4 510 181 1. Determine the concentration of each component (C2) in the final mixture for each run (refer to Table 4-1) for the total volume (V2) of the mixture, and the initial concentration (C1) and volume (V1) of each component). CiV1 = C2V2 %3D 2. Calculate for the reaction rate per run using the concentration of iodine and time elapsed. reaction rate = [12] in the final mixture/time elapsed 3. Determine the reaction order with respect to l2. Also determine the reaction order with respect to C3H,O and the reaction order with respect to HCI. Round off your answers to the nearest whole number. 4. Calculate for the rate constant for each run using the reaction orders obtained (use rounded off values of reaction orders). 5. Take the average of the rate constants. 6. Determine the rate law of the reaction.