What defines a base dissociation constant (Kb)?

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Multiple Choice

What defines a base dissociation constant (Kb)?

Explanation:
The base dissociation constant (Kb) specifically defines the equilibrium constant for the reaction when a base dissociates in water. It quantifies the extent to which a base can accept protons (H+) from water, forming hydroxide ions (OH-) and the conjugate acid of the base. The expression for Kb is derived from the concentrations of the products over the concentration of the reactants at equilibrium. In a typical base dissociation reaction, a base (B) reacts with water (H2O) to produce its conjugate acid (BH+) and hydroxide ions (OH-). The equilibrium expression for this dissociation is given by: \[ K_b = \frac{[BH^+][OH^-]}{[B]} \] where [BH+] and [OH-] are the concentrations of the products and [B] is the concentration of the base that has not dissociated. This clearly illustrates that Kb is influenced by the concentrations of the products formed during the dissociation process, which is critical in determining the strength of the base. Understanding Kb helps in predicting the behavior of the base in solution, including its strength and the resulting pH of the solution. This foundational knowledge is essential for studying acid

The base dissociation constant (Kb) specifically defines the equilibrium constant for the reaction when a base dissociates in water. It quantifies the extent to which a base can accept protons (H+) from water, forming hydroxide ions (OH-) and the conjugate acid of the base. The expression for Kb is derived from the concentrations of the products over the concentration of the reactants at equilibrium.

In a typical base dissociation reaction, a base (B) reacts with water (H2O) to produce its conjugate acid (BH+) and hydroxide ions (OH-). The equilibrium expression for this dissociation is given by:

[ K_b = \frac{[BH^+][OH^-]}{[B]} ]

where [BH+] and [OH-] are the concentrations of the products and [B] is the concentration of the base that has not dissociated. This clearly illustrates that Kb is influenced by the concentrations of the products formed during the dissociation process, which is critical in determining the strength of the base.

Understanding Kb helps in predicting the behavior of the base in solution, including its strength and the resulting pH of the solution. This foundational knowledge is essential for studying acid

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