In this problem equilibrium constant is not given
So equilibrium concentration will be in terms of 'x'.
Use stoichiometry coefficients to find the change and to determine equilibrium concentration.
Suppose a 500. mL flask is filled with 2.0 mol of SO, and 1.8 mol of...
Suppose a 500 ml flask is filled with 0.80 mol of I₂ and 2.0 mol of HI. This reaction becomes possible: H₂(g) +I₂(g) ⇌ 2HI(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 H₂. You can leave out the M...
Suppose a 250 ml flask is filled with 0.20 mol of So, and 1.3 mol of SOz. This reaction becomes possible: 250,() +0,6) - 2503() 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 O. You can leave...
Suppose a 500. mL flask is filled with 1.3 mol of H,O, 1.6 mol of CO2 and 0.80 mol of H. This reaction becomes possible: CO(g) +H2O(g) + CO2(g) +H2 (8) 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...
Suppose a 500 ml flask is filled with 0.30 mol of CH4, 0.60 mol of H20 and 1.3 mol of CO. This reaction becomes possible: CH (8) + H20(8) -CO(g) + 3H2(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...
Suppose a 500. mL flask is filled with 0.60 mol of CH, 0.70 mol of CO and 0.10 mol of H,. This reaction becomes possible: CH4(8)+H20(g)Co (g)+3H2(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 H2O. You...
Song up a reaction Suppose a 500 ml flask is filled with 0.90 mol of CH4, 1.9 mol of H,S and 0.50 mol of CS,. This reaction becomes possible: CH,()+2H,S(g) -CS,() +4H, (®) 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...
Suppose a 250 ml flask is filled with 1.4 mol of O, and 0.60 mol of SO,. This reaction becomes possible: 250 (8)+0,(0) - 250 (8) 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 O. You can...
Suppose a 250. mL flask is filled with 1.7 mol of H2S, 2.0 mol of CS2 and 0.50 mol of H 2. This reaction becomes possible: CH_(8) +2H2S(g) = CS2(g) + 4H2 () 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...
Suppose a 500. mL flask is filled with 1.5 mol of CO, 1.8 mol of H,O and 0.60 mol of CO,. The following reaction becomes possible: CO(g) +H2O(g) + CO2(g)+H2(g) The equilibrium constant K for this reaction is 3.75 at the temperature of the flask. Calculate the equilibrium molarity of 1,0. Round your answer to two decimal places. IM | xs ?
Suppose a 500. ml flask is filled with 1.7 mol of Cl, and 2.0 mol of HCl. The following reaction becomes possible: H2(g) +C12(g) + 2HCl (8) The equilibrium constant K for this reaction is 7.05 at the temperature of the flask. Calculate the equilibrium molarity of HCl. Round your answer to two decimal places. x o ?