Answer Happy

Data and Calculations Part 1 Determination of the Orders of the Reaction rate = k[TT(BIO) [HT - AB:01 - 333 x 10" moll (1) at AI Table 1 Reaction Mixture Time, 1 (5) for Color to Change Rate of Reaction [Bros [HT Temperature (C) 99 3.36 - 0.0020 0.0080 0.020 23.7 2 43 7. MAD-10-0040 0.0080 0.020 23.6 3 52 4 23 6.401107/0.0020 0.016 0.020 23.6 1.48610 0.0020 0.0080 0.000 25.7 | 2.928109 0.016 10.0040 0.030 23.7 5 114 "Reactant concentration in reacting mixture in moles/L. The stock solutions were diluted when reactants were combined. M.Vitock = MV Using the method (ratios of rates) described in class, calculate the order with respect to each reactant. Order with Respect to lodide, 1, m: Show your work below. Show the ratio of rates, clearly identifying the reaction mixtures used. R2 K [] [ B.03 ] [ Hijr 2.30=62) RA *C[-]m [Bros J" CHJ 1.204 = 7.747107 - K[ 0.00403" [0.0020" (0.0203" 3.361 107 * I 0-90203" (0.00803" LO 620] 1.20 (given to 3 significant figures) (rounded to nearest integer)
Table 2 Reaction Mixture Rate Constant with Units 52.5 5 2 60.47 s 51.88 s. 57.81 si Average Rate Constant 55.675 Why should the rate constant, which was evaluated for each reaction mixture through 4, have nearly the same value? Be specific in your answer The rate constant have nearly the same value because the rate constant does not depend on concetration on Teucants.It depends ony on tenperature, and in the sc experiments the temperature were almost the same. Using the average rate constant, calculate the rate and time for Reaction Mixture 5 using the Reaction mixture 5 concentrations. Show your work below Calculated timet Relative rate calculated What was your observed time and how does it compare to the calculated time? What does this tell you about your data?
- (1) ΔΙ Part 1 Determination of the Orders of the Reaction rate = k[r][Bro, ] [H] = {Br0,7 – 3.33 x 10 * mol/L At Table 1 (10 points) Reaction Time, t(s) Mixture for Color to Rate of [1] [BrO:] [H]* Change Reaction 99 0.0620 0.0080 0.020 Temperature (°C) 3.36 KIO -7 23.7 2 43 1.74610-70-0040 0.0080 0.020 23.6 3 52 6.40110-7 0.0020 0.016 0.020 23.6 4 5 23 1-48110" 0.0020 0.0080 0.040 23.7 114 | 2.92810 0.0160.0040 0.030 23.7 * Reactant concentration in reacting mixture in moles/L. The stock solutions were diluted when reactants were combined. MindVisock Ma Vie Using the method (ratios of rates) described in class, calculate the order with respect to each reactant Order with Respect to lodide, I', m: Show your work below. Show the ratio of rates, clearly identifying the reaction mixtures used. (4 points) R2 K [] gm Blog ] [ H+jb ] 2.30=62) m 1.204 m R * [I-3m [Bros"J" [H]" 7.748101 K [0,00403 [0.00303 [0.0203" K L 0:0020] [9.09803" (0-6 203 F 3.361107 1.20 (given to 3 significant figures) (rounded to nearest integer)
Reaction Mixture Rate Constant with Units 1 52.5 misec 2 60.47in² sec 3 51.88 m2 ses The 57.81 m2 sec 55.67 m² sec -2 Average Rate Constant Why should the rate constant, which was evaluated for each reaction mixture 1 through 4, have nearly the same value? Be specific in your answer. (5 points) The rate constant have nearly the same value because the rate constant does not depend on concentration ok reactants. It depends ony on tenperature, and in the se experiments the temperature were almost the same. Using the average rate constant, calculate the rate and time t for Reaction Mixture 5 using the Reaction mixture S concentrations. Show your work below. (6 points) es della sed mahitaji Calculated timet Relative rate calculated What was your observed time and how does it compare to the calculated time? What does this tell you about your data? (5 points)