Reaction: AHr (kJ/mole) 2 ICI (2) 17.78 247.551 116.135 223.066 (J/mole K) Vhich explains the outcome when 0.45 mol I,, 0.45 mol Cl, and 2.42 mol ICl are added to a 2.0L flask at 5°C? [ICI] decreases B. [ICI] increases C. both [I2] and [Cl] increase D. at equilibrium eywords: reaction quotient (Q), initial concentration(s), equilibrium concentration(s), equilibrium constant, prward reaction, reverse reaction, Q < K, Q > K,Q =K Doncepts: Reaction Quotient, Chemical equilibrium
Reaction: AHr (kJ/mole) 2 ICI (2) 17.78 247.551 116.135 223.066 (J/mole K) Vhich explains the outcome when 0.45 mol I,, 0.45 mol Cl, and 2.42 mol ICl are added to a 2.0L flask at 5°C? [ICI] decreases B. [ICI] increases C. both [I2] and [Cl] increase D. at equilibrium eywords: reaction quotient (Q), initial concentration(s), equilibrium concentration(s), equilibrium constant, prward reaction, reverse reaction, Q < K, Q > K,Q =K Doncepts: Reaction Quotient, Chemical equilibrium
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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![3.) Consider the reaction below.
Reaction:
AH°r
(kJ/mole)
2 ICI (£)
17.78
L. (g)
247.551
l16.135
223.066
(/mole K)
Which explains the outcome when 0.45 mol ½, 0.45 mol Cl2, and 2.42 mol ICl are added to a 2.0L flask at
25°C?
A. [ICI] decreases
B. [ICI] increases
C. both [b] and [CL] increase
D. at equilibrium
Keywords: reaction quotient (Q), initial concentration(s), equilibrium concentration(s), equilibrium constant,
forward reaction, reverse reaction, Q <K, Q > K. Q= K
Concepts: Reaction Quotient, Chemical equilibrium](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3425cae7-78b6-4102-b4ec-611d4b67bd59%2Fd133c06a-8230-43fa-964b-0c888cc8eea0%2Fxd8sdan_processed.jpeg&w=3840&q=75)
Transcribed Image Text:3.) Consider the reaction below.
Reaction:
AH°r
(kJ/mole)
2 ICI (£)
17.78
L. (g)
247.551
l16.135
223.066
(/mole K)
Which explains the outcome when 0.45 mol ½, 0.45 mol Cl2, and 2.42 mol ICl are added to a 2.0L flask at
25°C?
A. [ICI] decreases
B. [ICI] increases
C. both [b] and [CL] increase
D. at equilibrium
Keywords: reaction quotient (Q), initial concentration(s), equilibrium concentration(s), equilibrium constant,
forward reaction, reverse reaction, Q <K, Q > K. Q= K
Concepts: Reaction Quotient, Chemical equilibrium
Expert Solution
Step 1
The question is based on the concept of equilibrium.
we have to determine the direction or position of equilibrium at the given conditions. this can be predicted by calculating the value of reaction quotient.
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