Acid Ionization Constant

Tags: #Chemical #Chemistry

Equation

$$HA_{(aq)}+H_2O_{(l)} \rightleftharpoons H_3O^+_{(aq)}+A^?_{(aq)} \\ K_a=\dfrac{[H_3O^+][A^?]}{[HA]} \\ HA_{(aq)} \rightleftharpoons H^+_{(aq)}+A^?_{(aq)} \\ K_aK_b = K_w$$

Latex Code

                                 HA_{(aq)}+H_2O_{(l)} \rightleftharpoons H_3O^+_{(aq)}+A^?_{(aq)} \\
K_a=\dfrac{[H_3O^+][A^?]}{[HA]} \\
HA_{(aq)} \rightleftharpoons H^+_{(aq)}+A^?_{(aq)} \\
K_aK_b = K_w
                            

Have Fun

Let's Vote for the Most Difficult Equation!

Introduction

Equation



Latex Code

            HA_{(aq)}+H_2O_{(l)} \rightleftharpoons H_3O^+_{(aq)}+A^?_{(aq)} \\
            K_a=\dfrac{[H_3O^+][A^?]}{[HA]} \\
            HA_{(aq)} \rightleftharpoons H^+_{(aq)}+A^?_{(aq)} \\
            K_aK_b = K_w
        

Explanation

Latex code for the Acid Ionization Constant. The magnitude of the equilibrium constant for an ionization reaction can be used to determine the relative strengths of acids and bases. For example, the general equation for the ionization of a weak acid in water, where HA is the parent acid and A?is its conjugate base, is as follows:

  • : The parent acid.
  • : The conjugate base of parent acid HA.
  • : Equilibrium constants for acid
  • : Equilibrium constants for conjugate base of the acid
  • : Equilibrium constants for any conjugate acid–base pair.

Related Documents

Related Videos

Discussion

Comment to Make Wishes Come True

Leave your wishes (e.g. Passing Exams) in the comments and earn as many upvotes as possible to make your wishes come true


  • Mark Jackson
    The thought of not passing this exam is haunting me.
    2023-10-30 00:00

    Reply


    Jason Hall reply to Mark Jackson
    Nice~
    2023-11-18 00:00:00.0

    Reply


  • Rose Rogers
    The pressure is on to pass this exam.
    2023-02-08 00:00

    Reply


    Hugo Chandler reply to Rose Rogers
    Gooood Luck, Man!
    2023-02-22 00:00:00.0

    Reply


  • Nathan Wheeler
    I've set my sights on passing this exam.
    2023-04-23 00:00

    Reply


    Margaret Thomas reply to Nathan Wheeler
    Gooood Luck, Man!
    2023-04-25 00:00:00.0

    Reply