and [HI] = 0 M. of H2, 12, and HI at 430°C the %3D 0. 378M 0378 [HEJeq =2Y-2.0.242m rHs Jeq =[B Jea -0.378- 0.297M E 01378 -y 0378 2x IT Kcz CHIJey -54,3 CH ef I> Jg ē -378 -x) =D7.3685 タ,378 X 6. Consider the following reaction: CO (g) + H2O(g) CO2(g) + H2(g) Suppose we start with 1.00 moles each of CO and water in a 50.0 Liter vessel. How many moles of each of the substances are present at equilibrium at 1000 C? Kcis 0.58 u Hy [ C0];=[My0, 100mcre tメ x- 50rd 3. 0.0000-8 X mndl er CH ха -0.58 Cco,] 000-x7) ea ea X-0.6865m =8,65 Y人 coiwoou0.767) CoJa-CH,0Jo xン〇。〇 ○&6m-! ela 6200-x) (x- 8.65 x10-3 U.Ol1 3M C.
and [HI] = 0 M. of H2, 12, and HI at 430°C the %3D 0. 378M 0378 [HEJeq =2Y-2.0.242m rHs Jeq =[B Jea -0.378- 0.297M E 01378 -y 0378 2x IT Kcz CHIJey -54,3 CH ef I> Jg ē -378 -x) =D7.3685 タ,378 X 6. Consider the following reaction: CO (g) + H2O(g) CO2(g) + H2(g) Suppose we start with 1.00 moles each of CO and water in a 50.0 Liter vessel. How many moles of each of the substances are present at equilibrium at 1000 C? Kcis 0.58 u Hy [ C0];=[My0, 100mcre tメ x- 50rd 3. 0.0000-8 X mndl er CH ха -0.58 Cco,] 000-x7) ea ea X-0.6865m =8,65 Y人 coiwoou0.767) CoJa-CH,0Jo xン〇。〇 ○&6m-! ela 6200-x) (x- 8.65 x10-3 U.Ol1 3M C.
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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Question 6 wanted to see if I did it right. Thanks
![and [HI] = 0 M.
of H2, 12, and HI at 430°C
the
%3D
0. 378M 0378
[HEJeq
=2Y-2.0.242m
rHs Jeq =[B Jea
-0.378- 0.297M
E 01378 -y 0378 2x
IT
Kcz CHIJey
-54,3
CH ef I> Jg ē -378 -x)
=D7.3685
タ,378 X
6. Consider the following reaction: CO (g) + H2O(g) CO2(g) + H2(g)
Suppose we start with 1.00 moles each of CO and water in a 50.0 Liter vessel. How many moles of each of the
substances are present at equilibrium at 1000 C? Kcis 0.58 u
Hy
[ C0];=[My0,
100mcre
tメ
x-
50rd
3.
0.0000-8 X
mndl er
CH
ха
-0.58
Cco,]
000-x7)
ea
ea
X-0.6865m =8,65
Y人
coiwoou0.767)
CoJa-CH,0Jo
xン〇。〇 ○&6m-!
ela
6200-x)
(x-
8.65 x10-3
U.Ol1 3M
C.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3f94b6c4-8026-41b5-a2ce-ea2500e29589%2F40ea1236-e9e2-4d24-a395-2ebe41758405%2Fhnkb58g.jpeg&w=3840&q=75)
Transcribed Image Text:and [HI] = 0 M.
of H2, 12, and HI at 430°C
the
%3D
0. 378M 0378
[HEJeq
=2Y-2.0.242m
rHs Jeq =[B Jea
-0.378- 0.297M
E 01378 -y 0378 2x
IT
Kcz CHIJey
-54,3
CH ef I> Jg ē -378 -x)
=D7.3685
タ,378 X
6. Consider the following reaction: CO (g) + H2O(g) CO2(g) + H2(g)
Suppose we start with 1.00 moles each of CO and water in a 50.0 Liter vessel. How many moles of each of the
substances are present at equilibrium at 1000 C? Kcis 0.58 u
Hy
[ C0];=[My0,
100mcre
tメ
x-
50rd
3.
0.0000-8 X
mndl er
CH
ха
-0.58
Cco,]
000-x7)
ea
ea
X-0.6865m =8,65
Y人
coiwoou0.767)
CoJa-CH,0Jo
xン〇。〇 ○&6m-!
ela
6200-x)
(x-
8.65 x10-3
U.Ol1 3M
C.
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