1-Calculate the partial pressure (in atm) of H₂O at equilibrium when 59.6 g of CdO and 3.21 atm of H₂ react at 800 K according to the following chemical equation:

CdO(s) + H2(g) ⇌ Cd(s) + H2O(g)

Kp = 4.12×101

***Report your answer to three significant figures in scientific notation.

2-Calculate the partial pressure (in atm) of H₂O at equilibrium when 1.38 atm of CH₃OH and 6.77 atm of HCl react at 2000 K according to the following chemical equation:

CH3OH (g) + HCl (g) ⇌ CH3Cl (g) + H2O (g)

Kp = 1.56

***Report your answer to three significant figures in scientific notation.

1)Calculate the partial pressure (in atm) of H₂ at equilibrium when 3.49 atm of CO and 5.63 atm of H₂O react at 1000 K according to the following chemical equation:

Report your answer to three significant figures in scientific notation.

2A mixture containing CH₃OH, HF, CH₃F, and H₂O, all at an initial partial pressure of 3.22 atm, is allowed to achieve equilibrium according to the equation below. At equilibrium, the partial pressure of H₂O is observed to have increased by 0.83 atm. Determine K_p for this chemical equilibrium. Report your answer to 3 significant figures in scientific notation.



CH₃OH(g) + HF(g) ⇌ CH₃F(g) + H₂O(g)

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Calculate the partial pressure (in atm) of HCl at equilibrium when 57.3 g of LiCl and 4.67 atm of H₂ react at 2300 K according to the following chemical equation:

Report your answer to three significant figures in scientific notation.