uestion 17 WProductReactantProductReactantTimeTimeReaction 1Reaction 2e graphs above represent the changes in concentration over time for the reactant and product of two separate reactions at 25 C. Based on these graphs, which of the following best supports the claim thataction 1 is thermodynamically favorable but reaction 2 is not?[Product]Product)[Reactant>> 1 and AG"Trn < 0 but for reaction 2<<1 and AG"n > 0.At equilibrium, for reaction 1[ReactantAProduct][Reactant<0.Product][Reactant]>> 1 and AG"ran > 0 but for reaction 2<< 1 and AG",rznBAt equilibrium, for reaction 1= 0 but for reaction 2 Product << 1 and AGn > 0.Reactant]Product)At equilibrium, for reaction 1= 1 and AG"Reactant][Product]Reactant)= 0 and AGTzn << 0ProductReactant]>> 1 and AG"Tzn < 0 but for reaction 2DAt equilibrium, for reaction 1Q Search or enter website name*ConcentrationConcentration

As per the graph , Reaction 1 is product favoured and reaction 2 is reactant favoured .

Product Reactant Product Reactant Time Time Reaction 1 Reaction 2 raphs above represent the changes in concentration over time for the reactant and product of two separate reactions at 25 C. Based on these graphs, which of the following best supports the claim that on 1 is thermodynamically favorable but reaction 2 is not? Product Reactant [Product] Reactant] >> 1 and AG 0. A At equilibrium, for reaction 1 Product) Reactant Product Reactant << 1 and AG" <0. At equilibrium, for reaction 1 >>1 and AG' >0 but for reaction 2 B Product Reactant =1 and AG Tan = 0 but for reaction 2 Product <<1 and AG. rzn> 0 At equilibrium, for reaction 1 Reactant (Product Reactant O and AG"n << 0. Product Reactant >> 1 and AG" O but for reaction 2 At equilibrium, for reaction 1 D rzn Concentration Concentration

Product Reactant Product Reactant Time Time Reaction 1 Reaction 2 raphs above represent the changes in concentration over time for the reactant and product of two separate reactions at 25 C. Based on these graphs, which of the following best supports the claim that on 1 is thermodynamically favorable but reaction 2 is not? Product Reactant [Product] Reactant] >> 1 and AG 0. A At equilibrium, for reaction 1 Product) Reactant Product Reactant << 1 and AG" <0. At equilibrium, for reaction 1 >>1 and AG' >0 but for reaction 2 B Product Reactant =1 and AG Tan = 0 but for reaction 2 Product <<1 and AG. rzn> 0 At equilibrium, for reaction 1 Reactant (Product Reactant O and AG"n << 0. Product Reactant >> 1 and AG" O but for reaction 2 At equilibrium, for reaction 1 D rzn Concentration Concentration

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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