Into a sealed 1.50 L flask, chemist placed 3.00 × 10 ² mol of phosgene gas (COCI:) and heated it to 800.0 K. After the system reached equilibrium, the pressure of CO was found to be 0.504 bar. Calculate the equilibrium constant Kp for this reaction. After the system reached equilibrium, the pressure of CO was found to be 0.504 bar. Determine the phosgene (COCI:) pressure at equilibrium. Co(g) + Cl:(g) = COCE(g)

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CO(g) + Cl:(g) = COCI:(g)
Into a sealed 1.50 L flask, chemist placed 3.00 × 10 ² mol of phosgene gas (COCI)
and heated it to 800.0 K. After the system reached equilibrium, the pressure of CO
was found to be 0.504 bar. Calculate the equilibrium constant Kp for this reaction.
After the system reached equilibrium, the pressure of CO was found to be 0.504 bar.
Determine the phosgene (COCI:) pressure at equilibrium.
CO(g) + Cl:(g) = COC:(g)
Set up ICE table in order to determine the phosgene pressure at equilibrium.
CO(g)
Cl-(g)
COCI:(g)
Initial (bar)
Change (bar)
Equilibrium (bar)
5 RESET
0.504
-0.504
1.33
-1.33
0.83
-0.83
0.32
-0.32
1.83
-1.83
Transcribed Image Text:CO(g) + Cl:(g) = COCI:(g) Into a sealed 1.50 L flask, chemist placed 3.00 × 10 ² mol of phosgene gas (COCI) and heated it to 800.0 K. After the system reached equilibrium, the pressure of CO was found to be 0.504 bar. Calculate the equilibrium constant Kp for this reaction. After the system reached equilibrium, the pressure of CO was found to be 0.504 bar. Determine the phosgene (COCI:) pressure at equilibrium. CO(g) + Cl:(g) = COC:(g) Set up ICE table in order to determine the phosgene pressure at equilibrium. CO(g) Cl-(g) COCI:(g) Initial (bar) Change (bar) Equilibrium (bar) 5 RESET 0.504 -0.504 1.33 -1.33 0.83 -0.83 0.32 -0.32 1.83 -1.83
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