pH and pOH Ionization of water Experiments have shown that pure water ionizes very slightly: 2H 2 O  H 3 O + + OH - Measurements show that: [H 3 O +

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Presentation transcript:

pH and pOH

Ionization of water Experiments have shown that pure water ionizes very slightly: 2H 2 O  H 3 O + + OH - Measurements show that: [H 3 O + ] = [OH - ]=1 x M Pure water contains equal concentrations of H 3 O + + OH -, so it is neutral.

pH pH is a measure of the concentration of hydronium ions in a solution. pH = -log [H 3 O + ] or pH = -log [H + ]

Sig. Figs. for Logarithms The rule is that the number of decimal places in the log is equal to the number of significant figures in the original number. Example: [H+] = 1.0 x M (2 significant figures) pH = -log(1.0 x ) = 9.00 (2 decimal places)

Example: What is the pH of a solution where [H 3 O + ] = 1 x M? pH = -log [H 3 O + ] pH = -log(1 x ) pH = 7.0

Example: What is the pH of a solution where [H 3 O + ] = 1 x M? pH = -log [H 3 O + ] pH = -log(1 x ) pH = 5.0 When acid is added to water, the [H 3 O + ] increases, and the pH decreases.

Example: What is the pH of a solution where [H 3 O + ] = 1 x M? pH = -log [H 3 O + ] pH = -log(1 x ) pH = 10.0 When base is added to water, the [H 3 O + ] decreases, and the pH increases.

The pH Scale AcidNeutral Base

pOH pOH is a measure of the concentration of hydroxide ions in a solution. pOH = -log [OH - ]

Example: What is the pOH of a solution where [OH - ] = 1 x M? pOH = -log [OH - ] pOH = -log(1 x ) pOH = 5.0

How are pH and pOH related? At every pH, the following relationships hold true: [H + ] [OH - ] = 1 x M pH + pOH = 14

Example 1: What is the pH of a solution where [H + ] = 3.4 x M? pH = -log [H + ] pH = -log(3.4 x M) pH = 4.47

Example 2: The pH of a solution is measured to be What is the [H + ] in this solution? pH = -log [H + ] 8.86 = -log [H + ] = log [H + ] [H + ] = antilog (-8.86) [H + ] = [H + ] = 1.4 x M

Example 3: What is the pH of a solution where [H + ] = 5.4 x M? pH = -log [H + ] pH = -log(5.4 x ) pH = 5.27

Example 4: What is the [OH - ] and pOH for the solution in example #3? [H 3 O + ][OH - ]= 1 x (5.4 x )[OH - ] = 1 x [OH - ] = 1.9 x M pH + pOH = 14 pOH = 14 – 5.27 = 8.73

Buffered Solutions A solution of a weak acid and a common ion is called a buffered solution.

Consider the following buffered solution… HAc  H + + Ac - H 2 O  H + + OH - Add additional acid…(H + ) The H + will combine with the Ac - producing HAc. There is an excess of Ac - from the common ion salt. HAc  H + + Ac -

Now, add additional base (OH - ) The OH - will combine with the H + to produce water… H 2 O  H + + OH - The H+ comes from the HAc HAc  H + + Ac -

Thus, the solution maintains it’s pH in spite of added acid or base.

Acid Base Titration A very accurate method to measure concentration. Acid + Base  Salt + Water H + + OH -  H 2 O Moles H + = Moles OH -

Titration Formula (Volume Acid)(Molar Conc. Acid) = (Volume Base)(Molar Conc. Base)

Buret Solution with Indicator