6. You are given the following equation: A₂B 2A + B) You fill a 1 L flask with 0.20 mol of A2B 0.5% of this substance dissociates. What is the value of K? 7.5.6 x 10-6 mol of A and 5 x 105 mol of B are mixed in a 200 mL flask. The system is represented by the equation 2A + B = 30 At equilibrium, there is 4.8 x 105 mol of B. Calculate the value of the equilibrium constant 8 K=1.7 x 10-10 for the following system which represents the dissolving of silver chloride AgCl) Ag*(a) + Cl (29) What will the concentration of Ag* be at equilibrium (in M)? 9. You work with the following system: 2X=Yu At, equilibrium, [Y]-3[X] If K-10, calculate the [Y] at equilibrium.

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6. You are given the following equation: A₂B2A + B) You fill a 1 L flask with 0.20 mol of A2B 0.5% of this substance dissociates. What is the value of K? 7.5.6 x 10-6 mol of A and 5 x 10¹5 mol of B are mixed in a 200 mL flask. The system is represented by the equation 2A + B = 30 At equilibrium, there is 4.8 x 105 mol of B. Calculate the value of the equilibrium constant 8 K=1.7 x 10-10 for the following system which represents the dissolving of silver chloride AgCl) Ag*(a) + Cl (2) What will the concentration of Ag* be at equilibrium (in M)? 9. You work with the following system: 2X=Yu At equilibrium, [Y]-3[X] If K=10, calculate the [Y] at equilibrium.