concentration change in the reaction is given by: -A[S:Os ]=5 x 10 M In mixtures 1 3, the concentration [S2Os ] is kept constant while the concentration [I] is varied, then the reaction rate equation (2) may be written as: A[S,0,1 Rate = k'[I"]y (ба) %3D At where k'-k [S2Os²-1". In mixtures 3- 5, the concentration [I] is kept constant while the concentration [S2Os ] is varied, then the reaction rate equation (2) may be written as: A[S,0,-] k"[S,0,-* (6b) Rate %3D At where k"=k [I-P. Therefore, you can determine the reaction rate constant and rate order at room temperature.

by plotting appropriate quantities based on equation 6a. determine the values of k' and y.

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concentration change in the reaction is given by: -A[S2O8 ]= 5 x 10 M In mixtures 1- 3, the concentration [S2Os] is kept constant while the concentration [I] is varied, then the reaction rate equation (2) may be written as: A[S,0g1 Rate = k'[I-]y (6a) At where k'= k [S2O3?]". In mixtures 3 - 5, the concentration [I] is kept constant while the concentration [S2Os] is varied, then the reaction rate equation (2) may be written as: Rate A[S,0g] = k"[S,0,2 ]* (6b) !! Δt where k"=k [I-P. Therefore, you can determine the reaction rate constant and rate order at room temperature.

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The room temperature at which the experiment was conducted was 20.8 °C (293.95 K) Mixture Temperature At (sec) A[S,0,] At 1 319 1.57x106 2 812 6.16x107 RT 3. 2552 1.96x107 4. 1140 4.39x107 5 542 9.23x107 6. -0 °C 1342 3.73x107 7 - 35 °C 102 4.90x10