Why is KC value only affected by temperature?

Re: Why does only Temp affect K? If you increase the temperature, the reaction will shift toward the products in equilibrium, and hence Kc would be have to be changed.

Why is KC not affected by change in concentration?

If the gas is one of the reactants or products, this would affect one of the concentrations, and the reaction will have to shift to reestablish equilibrium. Again, this changes one of the rates, but does not affect the rate constants, so Kc is unaffected.

Does temperature affect concentration?

An increase in temperature caused the concentration of the product to decrease and the concentrations of the reactants to increase. This means that the reverse reaction has been favoured. An increase in temperature will favour the reaction that takes heat in and cools the reaction vessel (endothermic).

How does temperature affect concentration?

Temperature: When you raise the temperature of a system, the molecules bounce around a lot more. Concentration: If there is more of a substance in a system, there is a greater chance that molecules will collide and speed up the rate of the reaction.

Why does temperature affect K value?

Increasing the temperature of a reaction generally speeds up the process (increases the rate) because the rate constant increases according to the Arrhenius Equation. As T increases, the value of the exponential part of the equation becomes less negative thus increasing the value of k.

How does temperature affect the KC?

This is typical of what happens with any equilibrium where the forward reaction is exothermic. Increasing the temperature decreases the value of the equilibrium constant. Where the forward reaction is endothermic, increasing the temperature increases the value of the equilibrium constant….

temperature	Kp
700 K	54

How does temperature affect the concentration of reactants?

An increase in temperature corresponds to an increase in the average kinetic energy of the particles in a reacting mixture — the particles move faster, colliding more frequently and with greater energy. Increasing concentration tends to increase the reaction rate.