The generic reaction below has Kp = 25 when the temperature is 225°C:
C(g) ⇌ D(g)
If the initial partial pressure of C (PC) is 5.0 atm and the initial partial pressure of D (PD) is 0.0 atm, what are the partial pressures of the two gases at equilibrium?
Question 7 options:
PC = 0.6 atm and PD = 4.4 atm |
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PC = 4.4 atm and PD = 0.60 atm |
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PC = 1 atm and PD = 25 atm |
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PC = 4.8 atm and PD = 0.1 atm |
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PC = 25 atm and PD = 1 atm |
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PC = 0.20 atm and PD = 4.8 atm |
The generic reaction below has Kp = 25 when the temperature is 225°C: C(g) ⇌ D(g) If...
Question 8 (5 points) The generic reaction below has Kp = 25 when the temperature is 225°C: C(g) = D(g) If the initial partial pressure of C (Pc) is 5.0 atm and the initial partial pressure of D (PD) is 0.0 atm, what are the partial pressures of the two gases at equilibrium? Pc = 25 atm and PD = 1 atm Pc = 4.4 atm and Pp = 0.60 atm Pc = 4.8 atm and Pp = 0.1 atm...
Question 9 (5 points) The generic reaction below has Kp = 25 when the temperature is 225°C: c(g) = D(9) If the initial partial pressure of C (Pc) is 5.0 atm and the initial partial pressure of D (PD) is 0.0 atm, what are the partial pressures of the two gases at equilibrium? Pc = 0.6 atm and PD = 4.4 atm Pc = 4.8 atm and PD = 0.1 atm Pc = 0.20 atm and PD = 4.8 atm...
For a chemical system that is in dynamic equilibrium with Kc = 0.50, which of the following statements is FALSE? Both reactants and products are present in the reaction mixture From the perspective of the forward reaction, the reaction mixture at equilibrium lies in favor of the products The composition of the reaction mixture does not change with time The rate of conversion of reactants to products is the same as the rate of conversion of products to reactants The...
At a particular temperature, Kp-0.39 for the reaction below. N204(g) 2 NO2(g) (a) A flask containing only N204 at an initial pressure of 4.8 atm is allowed to reach equilibrium. Calculate the equilibrium partial pressures of the gases. N2O4 NO2 atm (b) A flask containing only NO2 at an initial pressure of 9.6 atm is allowed to reach equilibrium. Calculate the equilibrium partial pressures of the gases. No2 (e) From your answers to parts (e) and (b), does it matter...
Consider the reaction A(g) + 2B(g) ⇌ C(g) at 25 °C. The initial pressures of all the gases are 0.100 atm. Once equilibrium has been established, it is found that Pc = 0.140 atm. What is Kp for this reaction at 25 °C. Please explain and/or show the steps.
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