(b) At 100° C, the keq for the Haber process is 4.51 x 10°5: N₂ + 3H₁₂ 2 NH3 Consider the following reaction conditions and determine if the system is at equilibrium. If not, indicate the direction in which the reaction must proceed to establish equilibrium (i) PNH3 = 105 atm, PN2 = 35 atm and P2 = 495 atm (ii) PNH3 = 35 atm, PN2 = 0 atm and PH₂ = 595 atm (iii) PNH3 = 26 atm, PN2 = 202 atm and PH2 = 42 atm (iv) PNH = 105 atm, PN2 = 5 atm and PH₂ = 55 atm

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  • At 100° C, the Keq for the Haber process is 4.51 x 10-5:

N2 + 3 H2  ------>  2 NH3

Consider the following reaction conditions and determine if the system is at equilibrium. If not, indicate the direction in which the reaction must proceed to establish equilibrium

  • pNH3 = 105 atm, pN2 = 35 atm and pH2 = 495 atm
  • pNH3 = 35 atm, pN2 = 0 atm and pH2 = 595 atm
  • pNH3 = 26 atm, pN2 = 202 atm and pH2 = 42 atm
  • pNH3 = 105 atm, pN2 = 5 atm and pH2 = 55 atm

 

(b) At 100° C, the keq for the Haber process is 4.51 x 10°5:
N₂ + 3H₁₂
2 NH3
Consider the following reaction conditions and determine if the system is at equilibrium.
If not, indicate the direction in which the reaction must proceed to establish equilibrium
(i)
PNH3 = 105 atm, PN2 = 35 atm and P2 = 495 atm
(ii)
PNH3 = 35 atm, PN2 = 0 atm and PH₂ = 595 atm
(iii)
PNH3 = 26 atm, PN2 = 202 atm and PH2 = 42 atm
(iv)
PNH = 105 atm, PN2 = 5 atm and PH₂ = 55 atm
Transcribed Image Text:(b) At 100° C, the keq for the Haber process is 4.51 x 10°5: N₂ + 3H₁₂ 2 NH3 Consider the following reaction conditions and determine if the system is at equilibrium. If not, indicate the direction in which the reaction must proceed to establish equilibrium (i) PNH3 = 105 atm, PN2 = 35 atm and P2 = 495 atm (ii) PNH3 = 35 atm, PN2 = 0 atm and PH₂ = 595 atm (iii) PNH3 = 26 atm, PN2 = 202 atm and PH2 = 42 atm (iv) PNH = 105 atm, PN2 = 5 atm and PH₂ = 55 atm
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