# Why is KP equal to KC?

## Why is KP equal to KC?

Those conversion factors are, of course, all equal, and they will cancel. So any time the number of gas molecules on the product side is the same as the number of gas molecules on the reactant side, Kc will be equal to Kp.

## What is the relation between KP KC and KX?

Relation between Kp and Kx i.e. Pi = Xi P where P is the total pressure and Pi is the partial pressure of ith component with mole fraction Xi in the mixture.

## For which reaction is KP equal to KC?

∆n = moles of gaseous products œ moles of gaseous reactants ⇒ Note that Kc = Kp when the number of gas molecules are the same on both sides.

## What is KP and KC in chemistry?

Kp And Kc are the equilibrium constant of an ideal gaseous mixture. Kp is equilibrium constant used when equilibrium concentrations are expressed in atmospheric pressure and Kc is equilibrium constant used when equilibrium concentrations are expressed in molarity.

## How do you calculate KC in chemistry?

Multiply concentrations of CO2 and H2O to get Kc. An important rule is that all components which are in the solid state are not included in the equilibrium constant equation. Thus, in this case, Kc=[CO2] x [H2O]=1.8 mole/L x 1.5 mole/L=2.7 mole^2/L^2.

## How do you find KC and KP in chemistry?

So you have Kp equals Kc times RT to the delta n. Kp is the equilibrium constant and pressures. So using our example, Kp would have been equal to the pressure of NO2 gas, and that quantity squared,over the pressure of N2O4 gas.

Kp=Kc/(RT)2.

## Is KP equal to KX?

Here Kp and Kx are Equilibrium Constants. And the relation between them is as follows: Kp=Kx(p)^▲ n. Here p is pressure and ▲ n is number of moles of product-number of moles of reactant.

## What is KP constant?

Equilibrium constant expression in terms of partial pressure is designated as Kp. Equilibrium constant Kp is equal to the partial pressure of products divided by partial pressure of reactants and the partial pressure are raised with some power which is equal to the coefficient of the substance in balanced equation.