Suppose a 500. mL flask is filled with 1.9 mol of H₂S, 0.30 mol of CS₂ and 2.0 mol of H₂. This reaction becomes possible: CH₂(g) +2H₂S (g) → CS₂(g) + 4H₂(g) Complete the table below, so that it lists the initial molarity of each compound, the change in molarity of each compound due to the reaction, and the equilibrium molarity of each compound after the reaction has come to equilibrium. Use x to stand for the unknown change in the molarity of CH₂. You can leave out the M symbol for molarity. initial change equilibrium CH₂ 0 0 H₂S 0 0 0 CS₂2 0 0 0 H₂ 0 0 0 DO X

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Chapter13: Chemical Equilibrium
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Problem 2ALQ: The boxes shown below represent a set of initial conditions for the reaction: Draw a quantitative...
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O KINETICS AND EQUILIBRIUM
Setting up a reaction table
Suppose a 500. mL flask is filled with 1.9 mol of H₂S, 0.30 mol of CS₂ and 2.0 mol of H₂. This reaction becomes possible:
CH₂(g) +2H₂S(g) = CS₂(g) + 4H₂(g)
Complete the table below, so that it lists the initial molarity of each compound, the change in molarity of each compound due to the reaction, and the
equilibrium molarity of each compound after the reaction has come to equilibrium.
Use x to stand for the unknown change in the molarity of CH4. You can leave out the M symbol for molarity.
initial
change
equilibrium
CH4
0
U
H₂S
0
0
0
CS₂
0
0
0
H₂
0
0
0
00
0/5
X
Transcribed Image Text:O KINETICS AND EQUILIBRIUM Setting up a reaction table Suppose a 500. mL flask is filled with 1.9 mol of H₂S, 0.30 mol of CS₂ and 2.0 mol of H₂. This reaction becomes possible: CH₂(g) +2H₂S(g) = CS₂(g) + 4H₂(g) Complete the table below, so that it lists the initial molarity of each compound, the change in molarity of each compound due to the reaction, and the equilibrium molarity of each compound after the reaction has come to equilibrium. Use x to stand for the unknown change in the molarity of CH4. You can leave out the M symbol for molarity. initial change equilibrium CH4 0 U H₂S 0 0 0 CS₂ 0 0 0 H₂ 0 0 0 00 0/5 X
Expert Solution
Step 1: ICE table

Answer:

ICE table gives us the presence of initial quantities in the system along with the changes occurring according to the stoichiometry of the reaction and quantity of each substance that is present in the system at equilibrium.

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