Concentrations Consider the gas phase reaction: A (g) В (g) С (9) D (g) Experiment 1: Let's assume that a 1.00 L reaction vessel is loaded with exactly one mole of each reactant at the same temperature as above (no products are present at the start). At a certain point in time during Experiment 1, the concentration of reactant "A" is determined to be 0.75 mol/L. The Kc for this reaction is 9.0. Answer Questions 1A-C about Experiment 1. 1A) What is the concentration of products C and D at this point in time during experiment 1? Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer. a 0.25 mol/L b 0.75 mol/L Both products won't have the same concentration. d Both products will have the same concentration, but a different value from the ones above. В) Isthe system at equilibrium at this point in time during Experiment 1? Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer. a Yes - it's at equilibrium when the reactant A has a concentration of 0.75 mol/L. No - it's not at equilibrium when the reactant A has a concentration of 0.75 mol/L. C) How much of reactant A will have reacted once the system reaches equilibrium? Submit an answer in mol/L and including two significant figures. (You do not need to write the units) Type your numeric answer and submit

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Part 1: ICE Tables and Calculating Equilibrium
Concentrations
Consider the gas phase reaction:
А (g)
В (g)
C (g)
D (g)
Experiment 1: Let's assume that a 1.00 L reaction vessel is loaded with exactly one mole of each
reactant at the same temperature as above (no products are present at the start). At a certain point in
time during Experiment 1, the concentration of reactant "A" is determined to be 0.75 mol/L. The Kc for
this reaction is 9.0.
Answer Questions 1A-C about Experiment 1.
1A)
What is the concentration of products C and D at this point in time during experiment 1?
Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer.
a
0.25 mol/L
b
0.75 mol/L
Both products won't have the same concentration.
d
Both products will have the same concentration, but a different value from the ones above.
B)
Is the system at equilibrium at this point in time during Experiment 1?
Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer.
Yes - it's at equilibrium when the reactant A has a concentration of 0.75 mol/L.
a
b
No - it's not at equilibrium when the reactant A has a concentration of 0.75 mol/L.
C)
How much of reactant A will have reacted once the system reaches equilibrium?
Submit an answer in mol/L and including two significant figures. (You do not need to write the units)
Type your numeric answer and submit
Transcribed Image Text:Part 1: ICE Tables and Calculating Equilibrium Concentrations Consider the gas phase reaction: А (g) В (g) C (g) D (g) Experiment 1: Let's assume that a 1.00 L reaction vessel is loaded with exactly one mole of each reactant at the same temperature as above (no products are present at the start). At a certain point in time during Experiment 1, the concentration of reactant "A" is determined to be 0.75 mol/L. The Kc for this reaction is 9.0. Answer Questions 1A-C about Experiment 1. 1A) What is the concentration of products C and D at this point in time during experiment 1? Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer. a 0.25 mol/L b 0.75 mol/L Both products won't have the same concentration. d Both products will have the same concentration, but a different value from the ones above. B) Is the system at equilibrium at this point in time during Experiment 1? Select an answer and submit. For keyboard navigation, use the up/down arrow keys to select an answer. Yes - it's at equilibrium when the reactant A has a concentration of 0.75 mol/L. a b No - it's not at equilibrium when the reactant A has a concentration of 0.75 mol/L. C) How much of reactant A will have reacted once the system reaches equilibrium? Submit an answer in mol/L and including two significant figures. (You do not need to write the units) Type your numeric answer and submit
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