Life

Does water go in the equilibrium constant?

Does water go in the equilibrium constant?

Note that because water is a liquid, it is omitted from this equilibrium expression.

Why is water not included in KB?

An equilibrium expression can be written for the reactions of weak bases with water. Because the concentration of water is extremely large and virtually constant, the water is not included in the expression. A large Kb value indicates the high level of dissociation of a strong base.

Is water included in Ka?

Once again, the concentration of water is constant, so it does not appear in the equilibrium constant expression; instead, it is included in the Kb. The larger the Kb, the stronger the base and the higher the OH− concentration at equilibrium.

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Why can the concentration of water be ignored in the equilibrium expression for water?

Why can the concentration of water be ignored in the equilibrium expression for water? The concentration of water molecules is essentially constant.

Why ionic product of water is constant?

The Constancy of the Ionic Product for Water At any given time, the amount of hydronium ions and hydroxide ions present in water is extremely small and consequently the concentration of undissociated water molecules is virtually unchanged by this minute ionization and may be considered a constant.

Is water considered in the equilibrium constant?

So, as you speculated, whether or not water is considered in the equilibrium constant entirely depends on whether or not water is a product and if water is the solvent. If water is the solvent, it would be very normal to ignore the water which is produced or the water which might act as a reactant.

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Why is water omitted from the equilibrium expression?

Water is omitted from the equilibrium expression only if it is a solvent in that reaction because it is a pure liquid. We can’t increase the concentration of a pure liquid or pure solid and hence they are omitted from the expression. However water in gaseous state cannot be ignored.

Is the concentration of water constant during a chemical reaction?

That rule only applies if water is the solvent and is in such excess over other reactants and products that even if it is a reactant or product, its change in concentration during the reaction is negligible. In that case, the concentration of water is considered to be a constant.

Why does solvolysis exclude the solvent from the equilibrium constant?

If water is the solvent, it would be very normal to ignore the water which is produced or the water which might act as a reactant. Similarly, any reaction which takes place by solvolysis will exclude the solvent from the equilibrium constant.