The 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 that reaction 1 is thermodynamically favorable but reaction 2 is not? Product Reactant At equilibrium, for reaction 1 >> 1 and AG 0. [Reactant] Product [Reactant] (Product [Reactant At equilibrium, for reaction 1 >> 1 and AG'. > 0 but for reaction 2 << 1 and AG <0. [Product] Reactant (Product (Reactant << 1 and AG > 0. At equilibrium, for reaction 1 = 1 and AG = 0 but for reaction 2 [Product Reactant] Product Reactant = 0 and AG << 0. At equilibrium, for reaction 1 >> 1 and AGn

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ren = 0 but for reaction 2 Product << 1 and AG.
16
(19
(20
« < 16 of 3
Time
Time
Reaction 1
Reaction 2
The 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 that reaction 1 is thermodynamically favorable but reaction 2 is not?
[Product)
[Reactant]
Product)
[Reactant]
A
At equilibrium, for reaction 1
>> 1 and AG <Obut for reaction 2
<< 1 and AG > 0.
(Product)
[Reactant]
At equilibrium, for reaction 1
[Product)
>> 1 and AG >0 but for reaction 2
<< 1 and AG.
< 0.
B
[Reactant]
[Product
[Reactant]
>0.
At equilibrium, for reaction 1
=1 and AG
[Reactant
[Product)
Reactant]
[Product
Reactant
O and AG" << 0.
At equilibrium, for reaction 1
>> 1 and AG n <0 but for reaction 2
US O
Transcribed Image Text:ren = 0 but for reaction 2 Product << 1 and AG. 16 (19 (20 « < 16 of 3 Time Time Reaction 1 Reaction 2 The 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 that reaction 1 is thermodynamically favorable but reaction 2 is not? [Product) [Reactant] Product) [Reactant] A At equilibrium, for reaction 1 >> 1 and AG <Obut for reaction 2 << 1 and AG > 0. (Product) [Reactant] At equilibrium, for reaction 1 [Product) >> 1 and AG >0 but for reaction 2 << 1 and AG. < 0. B [Reactant] [Product [Reactant] >0. At equilibrium, for reaction 1 =1 and AG [Reactant [Product) Reactant] [Product Reactant O and AG" << 0. At equilibrium, for reaction 1 >> 1 and AG n <0 but for reaction 2 US O
Question 16
Product
Reactant
Product
Reactant
Time
Time
Reaction 1
Reaction 2
The 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 foll
claim that reaction 1 is thermodynamically favorable but reaction 2 is not?
[Product]
>> 1 and AG'
< O but for reaction 2
[Product]
<< 1 and AG,
At equilibrium, for reaction 1
Concentration
Concentration
Transcribed Image Text:Question 16 Product Reactant Product Reactant Time Time Reaction 1 Reaction 2 The 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 foll claim that reaction 1 is thermodynamically favorable but reaction 2 is not? [Product] >> 1 and AG' < O but for reaction 2 [Product] << 1 and AG, At equilibrium, for reaction 1 Concentration Concentration
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