A 3.00-liter flask initially contains 3.00 mol of gas A and 1.50 mol of gas B....

A 3.00-liter flask initially contains 3.00 mol of gas A and 1.50 mol of gas B....

A 3.00-liter flask initially contains 3.00 mol of gas A and 1.50 mol of gas B. Gas A decomposes according to the reaction 3A ⇌ 2B + C The equilibrium concentration of gas C is 0.125 mol/L. Determine the equilibrium concentration of gas A.

1. In an experiment, 3.00 mol of iodine gas and 3.00 mol of chlorine gas are...

1. In an experiment, 3.00 mol of iodine gas and 3.00 mol of chlorine gas are initially placed into a 4.00 L container at 225°C. Construct an ICE table and find the concentrations of all reactants and products at equilibrium. [A5] I2 (g) + Cl2 (g) ⇌ 2 ICl (g) K = 44.6 at 225°C

1.575 mol N2O3 is put into a 2.00 L flask at 25°C where it decomposes into...

1.575 mol N2O3 is put into a 2.00 L flask at 25°C where it decomposes into NO2(g) and NO(g). What is the equilibrium constant (to 4 decimal places) if the reaction mixture contains 0.300 mol NO2 at equilibrium?

For the reaction given below, 2.00 moles of A and 3.00 moles of B are placed...

For the reaction given below, 2.00 moles of A and 3.00 moles of B are placed in a 6.00-L container. A(g) + 2B(g) C(g) At equilibrium, the concentration of A is 0.220 mol/L. What is the value of K? (6.90)

The equilibrium constant for the reaction of fluorine gas with bromine gas at 300 K is...

The equilibrium constant for the reaction of fluorine gas with bromine gas at 300 K is 54.7 and the reaction is: Br2(g) + F2(g) ⇔ 2 BrF(g) What is the equilibrium concentration of fluorine if the initial concentrations of bromine and fluorine were 0.131 moles/liter in a sealed container and no product was present initially?

A mixture initially contains A, B, and C in the following concentrations: [A]=0.700mol L−1, [B]=1.05mol L−1,...

A mixture initially contains A, B, and C in the following concentrations: [A]=0.700mol L−1, [B]=1.05mol L−1, and [C]=0.550mol L−1. The following reaction occurs and equilibrium is established: A(aq)+2B(aq)⇌C(aq) At equilibrium, [A]=0.550mol L−1 and [C]=0.700mol L−1. Calculate the value of the equilibrium constant, Kc .

H2 + I2 <---> 2HI Kp=100 Initially, a flask contains hydrogen gas at 0.010atm iodine gas...

H2 + I2 <---> 2HI Kp=100 Initially, a flask contains hydrogen gas at 0.010atm iodine gas at 0.0050atm, and hydorgen iodide gas at 0.50atm. Determine equilibrium partial pressure of each gas in the flask.

A 4.0L reaction flask initially contains 4.0 mol of SO3 at 400K. Sulfur dioxide and oxygen...

A 4.0L reaction flask initially contains 4.0 mol of SO3 at 400K. Sulfur dioxide and oxygen form: 2SO3(g) ↔ 2SO2(g) + O2(g). After equilibrium is established, 0.27 mol SO3 remain. What is the value of Kc?

A mixture initially contains A , B , and C in the following concentrations: [A] =...

A mixture initially contains A , B , and C in the following concentrations: [A] = 0.300 M , [B] = 1.15 M , and [C] = 0.700 M . The following reaction occurs and equilibrium is established: A+2B⇌C At equilibrium, [A] = 0.120 M and [C] = 0.880 M . Calculate the value of the equilibrium constant, Kc .

A mixture of 3.00 moles of methane and 2.00 mol of divisor sulfide (hydrogen sulphide) initially...

A mixture of 3.00 moles of methane and 2.00 mol of divisor sulfide (hydrogen sulphide) initially reacted at 1000 K according to the following reaction: CH4 (g) + 2 H2S (g) ↽ - ⇀ CS2 (g) + 4 H2 (g) In equilibrium, the hydrogen partial pressure was 20.0 kPa and the total pressure 92.0 kPa. a) What is the total molar amount of reaction in balance? (indicate to four decimal places) b) Calculate the partial pressures of the various substances...