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In chemistry, the strength of a base is determined by its ability to accept protons (H+) and form hydroxide ions (OH-) in an aqueous solution. The strength of a base is often quantified using the pKB value, which is the negative logarithm of the base dissociation constant (KB).

A lower pKB value indicates a stronger base because it corresponds to a higher value for the base dissociation constant (KB). The base dissociation constant measures the extent to which a base dissociates or ionizes in water. A higher KB value means that a greater proportion of the base molecules will dissociate into hydroxide ions, indicating a stronger base.

When a base is strong, it readily donates an electron pair to form a bond with a proton, effectively accepting the proton. Strong bases have a high affinity for protons and easily dissociate into hydroxide ions when dissolved in water. This is why they exhibit a higher value of KB, resulting in a lower pKB value.

Common examples of strong bases include hydroxides of alkali metals (such as sodium hydroxide, NaOH) and alkali earth metals (such as calcium hydroxide, Ca(OH)2). These bases completely dissociate in water, resulting in a high concentration of hydroxide ions and making them strong bases.

On the other hand, weak bases have a lower affinity for protons and only partially dissociate in water, resulting in a lower concentration of hydroxide ions. Weak bases typically have higher pKB values and lower KB values, indicating their lower strength in accepting protons and forming hydroxide ions.

In summary, the strength of a base is inversely related to the value of pKB. A lower pKB value corresponds to a higher value of KB and indicates a stronger base that readily accepts protons and forms hydroxide ions in aqueous solutions.

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