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Relative Strengths of Acids and Bases

Introduction

  • Brønsted-Lowry Acids are H+ donors.

  • The strength of an acid is measured by the extent to which it forms H3O+ in water.

    • HA(aq)    +    H2O(l)     ⇌ H3O+(aq)    +    A– (aq)

  • Strong acids yield nearly 100% H3O+.

  • Weak acids yield much less than 100% H3O+.

Acid Ionization Constant, Ka

  • The relative strengths of weak acids can be determined by measuring their equilibrium constants

  • Acid ionization constant (Ka): the equilibrium constant for an acid

  • Ka values are related to the strength of the acids

    • The larger the Ka, the stronger the acid

    • The smaller the Ka, the weaker the acid

  • Ka = ([H+][A-])/[HA] in a strong acid

    • As the molarity of HA approaches zero, the value of Ka becomes very, very large

Relative Strength of Bases

  • Brønsted-Lowry Bases are H+ acceptors.

  • The strength of a base is measured by the extent to which it forms hydroxide ions in water.

    • B(aq)    +    H2O(l)     ⇌ HB+(aq)    +    OH–(aq)

  • Strong bases yield nearly 100% OH–.

  • Weak bases yield much less than 100% OH–.

Base Ionization Constant, Kb

  • The relative strengths of weak bases can be determined by measuring their equilibrium constants

  • Base ionization constant (Kb): the equilibrium constant for a base

  • Kb = ([HB+][OH-])/[B]

  • Kb values are related to the strength of the bases

    • The larger the Kb, the stronger the base

    • The smaller the Kb, the weaker the base

Ka and Kb

  • Ka and Kb are inversely related.

    • The larger Ka is of an acid, the smaller the Kb is of its conjugate base.

    • The larger Kb is of a base, the smaller the Ka is of its conjugate acid.

  • Therefore, the stronger the acid, the WEAKER its conjugate base.

  • The extent to which an acid, HA, donates a proton to a water molecule depends upon the strength of that acid compared to the strength of  H3O+

  • Bronsted-Lowry acid base reactions go predominantly in the direction that forms the WEAKER acids and bases.

  • Any acid that is stronger than H3O+ is called a “strong acid,” and will be completely or nearly completely ionized in water.

  • But,  if HA is a weaker acid than H3O+ then the ionization reaction goes only slightly ;  the reverse is favored over the forward.  Weak acids are only slightly ionized.

  • The two-way yield sign indicates that HA is NOT a strong acid.

  • HA must be a weaker acid than H3O+ and,  A- must be a STRONGER base than water. The conjugate base of any weak acid must be more basic than water.

TR
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ChemistryAcids and Bases

Relative Strengths of Acids and Bases

Introduction

  • Brønsted-Lowry Acids are H+ donors.

  • The strength of an acid is measured by the extent to which it forms H3O+ in water.

    • HA(aq)    +    H2O(l)     ⇌ H3O+(aq)    +    A– (aq)

  • Strong acids yield nearly 100% H3O+.

  • Weak acids yield much less than 100% H3O+.

Acid Ionization Constant, Ka

  • The relative strengths of weak acids can be determined by measuring their equilibrium constants

  • Acid ionization constant (Ka): the equilibrium constant for an acid

  • Ka values are related to the strength of the acids

    • The larger the Ka, the stronger the acid

    • The smaller the Ka, the weaker the acid

  • Ka = ([H+][A-])/[HA] in a strong acid

    • As the molarity of HA approaches zero, the value of Ka becomes very, very large

Relative Strength of Bases

  • Brønsted-Lowry Bases are H+ acceptors.

  • The strength of a base is measured by the extent to which it forms hydroxide ions in water.

    • B(aq)    +    H2O(l)     ⇌ HB+(aq)    +    OH–(aq)

  • Strong bases yield nearly 100% OH–.

  • Weak bases yield much less than 100% OH–.

Base Ionization Constant, Kb

  • The relative strengths of weak bases can be determined by measuring their equilibrium constants

  • Base ionization constant (Kb): the equilibrium constant for a base

  • Kb = ([HB+][OH-])/[B]

  • Kb values are related to the strength of the bases

    • The larger the Kb, the stronger the base

    • The smaller the Kb, the weaker the base

Ka and Kb

  • Ka and Kb are inversely related.

    • The larger Ka is of an acid, the smaller the Kb is of its conjugate base.

    • The larger Kb is of a base, the smaller the Ka is of its conjugate acid.

  • Therefore, the stronger the acid, the WEAKER its conjugate base.

  • The extent to which an acid, HA, donates a proton to a water molecule depends upon the strength of that acid compared to the strength of  H3O+

  • Bronsted-Lowry acid base reactions go predominantly in the direction that forms the WEAKER acids and bases.

  • Any acid that is stronger than H3O+ is called a “strong acid,” and will be completely or nearly completely ionized in water.

  • But,  if HA is a weaker acid than H3O+ then the ionization reaction goes only slightly ;  the reverse is favored over the forward.  Weak acids are only slightly ionized.

  • The two-way yield sign indicates that HA is NOT a strong acid.

  • HA must be a weaker acid than H3O+ and,  A- must be a STRONGER base than water. The conjugate base of any weak acid must be more basic than water.