Consider the reaction. A(aq) = 3 B(aq) Kc = 3.63 x 10-6 at 500 K If...
Consider the reaction. A(aq) = 2 B(aq) Kc = 5.34 x 10-6 at 500 K If a 4.00 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] =
Consider the reaction. A(aq) = 3 B(aq) Kc = 9.91 x 10-6 at 500 K If a 3.80 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] =
Consider the reaction. A(aq) 3 B(aq) Kc 9.88 x 10- at 500 K If a 5.40 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] =
Consider the following reaction. A(aq) <---> 2B(aq) Kc = 4.90 x 10^-6 at 500 K If a 4.70 M sample of A is heated to 500 K, what is the concentration of B at equilibrium?
Consider the reaction. A(aq) = 3 B(aq) K. = 6.30 x 10-6 at 500 K If a 3.50 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] = M
Consider the reaction. A(aq) = 3 B(aq) K. = 9.88 x 10-6 at 500 K If a 5.40 M sample of A is heated to 500 K, what is the concentration of B at equilibrium?
Consider the reaction. A(aq) = 3 B(aq) K= 6.40 x 10-6 at 500 K If a 5.40 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? B) =
Consider the reaction. A(aq) = 3 B(aq) K. 2.00 x 10-6 at 500 K If a 3.60 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] =
Consider the reaction. A(aq)−⇀↽−2B(aq)Kc=4.23×10−6 at 500 K If a 1.70 M sample of A is heated to 500 K, what is the concentration of B at equilibrium?
Consider the reaction. A(aq) = 3 B(aq) K. = 6.30 x 10-6 Fiat 500 K If a 3.50 M sample of A is heated to 500 K, what is the concentration of B at equilibrium? [B] = 9.347 X10-30