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+ 0/0.9 points ! Previous Answers GVSUCheml 16v2 17.Ñ.2.P006 Integrated Rate Laws: Working with First Order Reactions What is the rate constant (min-1) of a first order reaction where the concentration of the reactant decreases by one fifth in 32.0 minutes? x min +-10.8 points GVSUChem116v2 17.c.3.P002. Integrated Rate Laws: Working with Second Order Reactions The following reaction is second order in the [NO21: 2 NO2 (9) 2 NO (9) 02 (9) The half life of this reaction at 660.0°C was found to be 1.157 minutes. If the reaction was started with [NO2]- 0.420 M, and allowed to run for 2.30 minutes, what concentration of [NO2] would remain? [NO2] = o-/0.9 points GVSUChem116v2 17.c.3.P004 Integrated Rate Laws: Working with Second Order Reactions The following reaction was found to be second order in [A] The reaction was run starting with an initial [A] = 0.8000 M and after 1,400 hours, the final concentration of A was 0.6305 M. How many minutes must pass before the concentration of B is equal to 1.169 M? minutes Show transcribed image text
+ 0/0.9 points ! Previous Answers GVSUCheml 16v2 17.Ñ.2.P006 Integrated Rate Laws: Working with First Order Reactions What is the rate constant (min-1) of a first order reaction where the concentration of the reactant decreases by one fifth in 32.0 minutes? x min +-10.8 points GVSUChem116v2 17.c.3.P002. Integrated Rate Laws: Working with Second Order Reactions The following reaction is second order in the [NO21: 2 NO2 (9) 2 NO (9) 02 (9) The half life of this reaction at 660.0°C was found to be 1.157 minutes. If the reaction was started with [NO2]- 0.420 M, and allowed to run for 2.30 minutes, what concentration of [NO2] would remain? [NO2] = o-/0.9 points GVSUChem116v2 17.c.3.P004 Integrated Rate Laws: Working with Second Order Reactions The following reaction was found to be second order in [A] The reaction was run starting with an initial [A] = 0.8000 M and after 1,400 hours, the final concentration of A was 0.6305 M. How many minutes must pass before the concentration of B is equal to 1.169 M? minutes
Show transcribed image text Deanna HettingerLv2
28 Aug 2019