Consider the following second order reaction at 400°C 2NO2 (9) -- 2NO(C) + 02 (m) - (4 pts) Show that [NO2(g) = (3PO-2PV

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answerhappygod
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Consider the following second order reaction at 400°C 2NO2 (9) -- 2NO(C) + 02 (m) - (4 pts) Show that [NO2(g) = (3PO-2PV

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Consider The Following Second Order Reaction At 400 C 2no2 9 2no C 02 M 4 Pts Show That No2 G 3po 2pv 1
Consider The Following Second Order Reaction At 400 C 2no2 9 2no C 02 M 4 Pts Show That No2 G 3po 2pv 1 (9.07 KiB) Viewed 49 times
Consider The Following Second Order Reaction At 400 C 2no2 9 2no C 02 M 4 Pts Show That No2 G 3po 2pv 2
Consider The Following Second Order Reaction At 400 C 2no2 9 2no C 02 M 4 Pts Show That No2 G 3po 2pv 2 (12.09 KiB) Viewed 49 times
Consider the following second order reaction at 400°C 2NO2 (9) -- 2NO(C) + 02 (m) - (4 pts) Show that [NO2(g) = (3PO-2PVRT b-(2 pts) Given that the collision diameter for the NO2 molecule is 350 pm and the experimental value of the pre-exponential factor is 4.3 x 10 morts 1. calculate the orientation factor

Consider the following reversible reaction with (Al. = 1.5 M: A =D The rate constant for the forward reaction (ky) is 1.0 x 10-3 and that for the reverse reaction (k.1) i 3,5 x 10-45 1 25.0 °C. Use the following Integrated rate law to - (1 pts) Calculate the equilibrium constant for the reaction. b-(1.5 pts) Calculate the concentration of A at equilibrium C-(1.5 pts) Calculate the concentration of A after 100 S. a 192 ill
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