Assume that 0.280 M of A (g) and 1.50 M of B (g) are sealed in a reaction vessel and undergo the reaction shown below: A (g) + 3B (g) = 2 C(g) a) Based on the information provided above ONLY, fill in the ICE table below inputting x for any relative changes. Be sure to indicate the direction of change, i.e. +/-. Be sure to use the proper number of significant figures. Any zeroes should be denoted as 0. The equilibrium row should still contain the x variable. A (g) 3B (g) 2 C (g) I C E 0.280 X: -X 0.280-x + 1.50 -X 1.50-X 0 +X 0+x b) Determine the value of x, if there is 0.130 M of A (g) remaining once the reaction reaches equilibrium. M

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Chapter1: Chemical Foundations
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Assume that 0.280 M of A (g) and 1.50 M of B (g) are sealed in a reaction vessel and undergo the reaction
shown below:
A (g) + 3B (g) = 2C (g)
a) Based on the information provided above ONLY, fill in the ICE table below inputting x for any relative
changes. Be sure to indicate the direction of change, i.e. +/-. Be sure to use the proper number of significant
figures. Any zeroes should be denoted as 0. The equilibrium row should still contain the x variable.
A (g)
3B (g)
2 C (g)
I
C
E
X:
0.280
-X
Ke:
0.280-x
+
1.50
-X
1.50-x
0
+X
b) Determine the value of x, if there is 0.130 M of A (g) remaining once the reaction reaches equilibrium.
0+x
c) Based on parts a) and b), determine the value of the equilibrium constant, Kc, for the reaction.
M
Transcribed Image Text:Assume that 0.280 M of A (g) and 1.50 M of B (g) are sealed in a reaction vessel and undergo the reaction shown below: A (g) + 3B (g) = 2C (g) a) Based on the information provided above ONLY, fill in the ICE table below inputting x for any relative changes. Be sure to indicate the direction of change, i.e. +/-. Be sure to use the proper number of significant figures. Any zeroes should be denoted as 0. The equilibrium row should still contain the x variable. A (g) 3B (g) 2 C (g) I C E X: 0.280 -X Ke: 0.280-x + 1.50 -X 1.50-x 0 +X b) Determine the value of x, if there is 0.130 M of A (g) remaining once the reaction reaches equilibrium. 0+x c) Based on parts a) and b), determine the value of the equilibrium constant, Kc, for the reaction. M
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