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The partial pressures of the gases when at equilibrium are found to be: A: 6.70 atm, B: 10.1 atm, C: 3.60 atm. Evaluate Kp for this reaction. 2A(g) B(g) --> C(g)
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The partial pressures of the gases when at equilibrium are found to be: A: 6.70 atm, B: 10.1 atm, C: 3.60 atm. Evaluate Kp for this reaction. 2A(g) B(g) --> C(g)

User Fatemeh Jabbari
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5.4k points

1 Answer

4 votes

Answer : The value of equilibrium constant (Kp) is,
7.94* 10^(-3)

Explanation : Given,

Partial pressure of A at equilibrium = 6.70 atm

Partial pressure of B at equilibrium = 10.1 atm

Partial pressure of C at equilibrium = 3.60 atm

The given chemical reaction is:


2A(g)+B(g)\rightarrow C(g)

The expression for equilibrium constant is:


K_p=((p_(C)))/((p_(A))^2* (p_(B)))

Now put all the given values in this expression, we get:


K_p=((3.60))/((6.70)^2* (10.1))


K_p=7.94* 10^(-3)

Thus, the value of equilibrium constant (Kp) is,
7.94* 10^(-3)

User Dan Weaver
by
5.3k points
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