hydrogen ions and acidity
DESCRIPTION
Hydrogen Ions and Acidity. The Ionization of Water and pH. Objectives. When you complete this presentation, you will be able to: describe the autoionization of water determine the hydrogen ion concentration in water when given the hydroxide ion concentration in water - PowerPoint PPT PresentationTRANSCRIPT
Hydrogen Ions and AcidityThe Ionization of Water and pH
Objectives
• When you complete this presentation, you will be able to:• describe the autoionization of water• determine the hydrogen ion concentration in water
when given the hydroxide ion concentration in water• determine the hydroxide ion concentration in water
when given the hydrogen ion concentration in water• determine pH or pOH of a solution when given the
hydrogen ion or hydroxide ion concentration• determine the hydrogen ion or hydroxide ion
concentration when given the pH or pOH
Hydrogen Ions in Water
• We are used to thinking of water as a pure liquid that contains only H2O molecules.• However, as a pure liquid, water ionizes into
hydrogen ions and hydroxide ions:• H2O(l) → H+(aq) + OH-(aq)• H2O(l) + H2O(l) → H3O+(aq) + OH-(aq)
Hydrogen Ions in Water
• The symbol for the concentration of hydrogen ions is [H+] and for hydroxide ions is [OH-].• We can measure the concentration of the ions in
pure water.• [H+] = 1.0×10-7 M• [OH-] = 1.0×10-7 M
• By stoichiometry, H2O(l) → H+(aq) + OH-(aq), we see that [H+] = [OH-] in pure water.
Hydrogen Ions in Water
• We also know that the product of the concentrations is a constant, Kw.• Kw = [H+][OH-] = 1.0×10-14
• This means that as we change [H+], we change [OH-].• If [H+] goes up, [OH-] goes down.• If [H+] goes down, [OH-] goes up.
Hydrogen Ions in Water
• The higher the value of [H+] and lower the value of [OH-], the more acidic the solution.• The lower the value of [H+] and higher the value
of [OH-], the more basic the solution.• For example: [H+] = 1.0×10-6 is acidic.• For example: [H+] = 1.0×10-3 is more acidic.• For example: [H+] = 1.0×10-8 is basic.• For example: [H+] = 1.0×10-11 is more basic.
Hydrogen Ions in Water
Example 1:Colas are slightly acidic. If a cola solution has [H+] = 1.0×10-5 M, what is the [OH-]?[H+] = 1.0×10-5 MKw = [H+][OH-] = 1.0×10-14
Kw = [H+][OH-] [OH-] =Kw
[H+] =1.0×10-14
1.0×10-5
[OH-] = 1.0×10-9 M
The pH Concept
• pH is another way to measure [H+] and/or [OH-].• pH = -log[H+]• pOH = -log[OH-]• If [H+] = 1.0×10-7
• then pH = -log(1.0×10-7) = 7.00• If [OH-] = 1.0×10-7
• then pOH = -log(1.0×10-7) = 7.00
The pH Concept
• To find pH on the TI-83 or TI-84 Plus …• press the “(-)” button• press the “LOG” button• enter the value for [H+]• press the “)” button• press “ENTER”
The pH Concept
• To find pH on the TI-Nspire …• press the “(-)” button• press the “ctrl” button• press the “10x” button• enter the value for [H+]• press the “)” button• press “ENTER”
• NOTE: The position of these buttons on your calculator may change with faceplate.
The pH Concept
• If [H+] = 1.0×10-5
• then pH = -log(1.0×10-5) = 5.00• If [OH-] = 1.0×10-8
• then pOH = -log(1.0×10-8) = 8.00• If [H+] = 3.1×10-2
• then pH = -log(3.1×10-2) = 1.51• If [OH-] = 4.5×10-11
• then pOH = -log(4.5×10-11) = 10.35
The pH Concept
Find the pH of a solution that has1. [H+] = 1.0×10-4
2. [H+] = 1.0×10-9
3. [H+] = 2.4×10-5
4. [H+] = 6.6×10-8
5. [H+] = 4.8×10-3
pH = 4.00
pH = 9.00
pH = 4.62
pH = 7.18
pH = 2.32
The pH Concept
Find the pOH of a solution that has1. [OH-] = 1.0×10-10
2. [OH-] = 1.0×10-3
3. [OH-] = 3.8×10-5
4. [OH-] = 8.1×10-8
5. [OH-] = 2.8×10-3
pOH = 10.00
pOH = 3.00
pOH = 4.42
pOH = 7.09
pOH = 2.55
The pH Concept
• We can also convert from pH and pOH to [H+] and [OH-] respectively.• [H+] = 10-pH
• [OH-] = 10-pOH
• If pH = 7.00• then [H+] = 10-7.00 = 1.0×10-7
• If pOH = 3.25• then [OH-] = 10-3.25 = 5.6×10-4
The pH Concept
• To find [H+] on the TI-83 or TI-84 Plus …• press the “2ND” button• press the “LOG” button• press the “(-)” button• enter the value for pH• press the “)” button• press “ENTER”
The pH Concept
• To find pH on the TI-Nspire …• press the “10x” button• press the “(-)” button• enter the value for pH• press the “)” button• press “ENTER”
• NOTE: The position of these buttons on your calculator may change with faceplate.
The pH Concept
• If pH = 2.556• then [H+] = 10-2.556 = 2.78×10-3
• If pOH = 9.27• then [OH-] = 10-9.27 = 5.4×10-10
• If pH = 12.12• then [H+] = 10-12.12 = 7.6×10-13
• If pOH = 6.678• then [OH-] = 10-6.678 = 2.10×10-7
The pH Concept
Find the [H+] of a solution with a1. pH = 6.00
2. pH = 13.00
3. pH = 5.25
4. pH = 9.42
5. pH = 2.32
[H+] = 1.0×10-6
[H+] = 1.0×10-13
[H+] = 5.6×10-6
[H+] = 3.8×10-10
[H+] = 4.8×10-3
The pH Concept
Find the [OH-] of a solution with a1. pOH = 4.00
2. pOH = 11.00
3. pH = 3.79
4. pH = 10.46
5. pH = 3.77
[OH-] = 1.0×10-4
[OH-] = 1.0×10-11
[OH-] = 1.6×10-4
[OH-] = 3.5×10-11
[OH-] = 1.7×10-4
The pH Concept
• pH + pOH = 14• if pH = 2.0,
• then pOH = 14.0 - 2.0 = 12.0• if pH = 3.250,
• then pOH = 14.000 - 3.250 = 10.750• if pOH = 3.0,
• then pH = 14.0 - 3.0 = 11.0• if pOH = 7.451,
• then pH = 14.000 - 7.451 = 6.549
The pH Concept
• Solutions with pH = 7 (pOH = 7) are neutral.• Litmus paper remains colorless.
• Solutions with pH < 7 (pOH > 7) are acidic.• Litmus paper turns red.
• Solutions with pH > 7 (pOH < 7) are basic.• Litmus paper turns blue.
Measuring pH
• Indicators may be added to a solution to tell us the range of pH of the solution.
Measuring pH
Indicators are most often used where pH may change, such as in a titration.But they are also used to tell us where we are in a particular range of pH.
For example, if we wanted to tell if a solution has a pH greater than or less than 7 ...
we might use Bromthymol Blue (which changes color at about pH = 7).
Measuring pH
Indicators are most often used where pH may change, such as in a titration.But they are also used to tell us where we are in a particular range of pH.
For example, if we wanted to tell if a solution has a pH greater than or less than 7 ...
we would not want to use Methyl Red (which changes color near pH = 5).
Measuring pH
• Some meters provide quick and accurate readings of pH.• They vary from the simple to the very complex.