Consider the equilibrium system described by the chemical reaction below, which has a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr be?. I₂(g) + Br₂(g) ⇌ 2 IBr(g)

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Consider the equilibrium system described by the chemical reaction below, which has a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr be?.
I₂(g) + Br₂(g) ⇌ 2 IBr(g)
 
 
Consider the equilibrium system described by the chemical reaction below, which has
a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to
reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr
be?.
(g) + Bra(g) = 2 IBr(g)
PREV
2
3
NEXT >
Based on your ICE table, set up the expression for Kc in order to determine the unknown. Do not
combine or simplify terms.
Ko
= 280
5 RESET
[2*]
(0.400 + x)
(0.400 + 2v]
[0.400 - x)
(0.400 - 21]
[0.133 + x)
[0.133 + 2v]
(0.133 - x)
(0.133 - 2x]
[0.400 + x]?
(0.400 + 21)"
[0.400 - x)?
(0.400 - 21]?
[0.133 + x]?
(0.133 + 21)?
(0.133 - x)?
(0.133 - 21)?
II
Transcribed Image Text:Consider the equilibrium system described by the chemical reaction below, which has a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr be?. (g) + Bra(g) = 2 IBr(g) PREV 2 3 NEXT > Based on your ICE table, set up the expression for Kc in order to determine the unknown. Do not combine or simplify terms. Ko = 280 5 RESET [2*] (0.400 + x) (0.400 + 2v] [0.400 - x) (0.400 - 21] [0.133 + x) [0.133 + 2v] (0.133 - x) (0.133 - 2x] [0.400 + x]? (0.400 + 21)" [0.400 - x)? (0.400 - 21]? [0.133 + x]? (0.133 + 21)? (0.133 - x)? (0.133 - 21)? II
Consider the equilibrium system described by the chemical reaction below, which has
a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to
reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr
be?.
1(g) + Br2(g) 2 IBr(g)
1
2
3
NEXT )
Based on the given values, set up ICE table in order to determine the unknown.
2(g)
Br2(g)
2 IBr(g)
Initial (M)
Change (M)
Equilibrium (M)
5 RESET
0.400
0.133
+2x
-2x
0,400 +x
0.400 + 2r
0.400 - x
0.400 - 2r
0.133 +x
0.133 + 2r
0.133 -x
0.133 - 2x
1L
Transcribed Image Text:Consider the equilibrium system described by the chemical reaction below, which has a value of Kc equal to 280 at a certain temperature. If 0.400 mol of IBr is allowed to reach equilibrium in a 3.00 L container, what will the equilibrium concentration of IBr be?. 1(g) + Br2(g) 2 IBr(g) 1 2 3 NEXT ) Based on the given values, set up ICE table in order to determine the unknown. 2(g) Br2(g) 2 IBr(g) Initial (M) Change (M) Equilibrium (M) 5 RESET 0.400 0.133 +2x -2x 0,400 +x 0.400 + 2r 0.400 - x 0.400 - 2r 0.133 +x 0.133 + 2r 0.133 -x 0.133 - 2x 1L
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