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How is pH defined? The pH of a solution is the negative logarithm of the hydrogen-ion concentration. The pH may be represented mathematically, using the following equation: pH = –log[H+] In pure water or a neutral solution, [H+] = 1 × 10–7M, and the pH is 7. pH = –log(1 × 10–7) = –(log 1 × log 10–7) = –(0.0 + (–7.0)) = 7.0 If the [H+] of a solution is greater than 1 × 10–7M, the pH is less than 7.0. If the [H+] of the solution is less than 1 × 10–7M, the pH is greater than 7.0.
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Sample problem: Calculating pH
What is the pH of a solution with a hydrogen-ion concentration of 4.2 × 10–10M? (contd.)
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Sample problem: Calculating pH
Calculate the pH of a solution with a hydroxide concentration of 1.2 × 10–3M.
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How are [H+] and [OH–] related in an aqueous solution?
The reaction in which water molecules produce ions is called the self-ionization of water. This reaction can be written as a simple dissociation. H2O(l) ⇄ H+(aq) + OH–(aq) The self-ionization of water occurs to a very small extent. In pure water at 25°C, the concentration of hydrogen ions is only 1 × 10–7M. The concentration of OH– is also 1 × 10–7M because the numbers of H+ and OH– ions are equal in pure water. Any aqueous solution in which [H+] and [OH–] are equal is a neutral solution.
![How are [H+] and [OH–] related in an aqueous solution](http://slideplayer.com/slide/2504108/9/images/5/How+are+%5BH%2B%5D+and+%5BOH%E2%80%93%5D+related+in+an+aqueous+solution.jpg "The reaction in which water molecules produce ions is called the self-ionization of water. This reaction can be written as a simple dissociation. H2O(l) ⇄ H+(aq) + OH–(aq) The self-ionization of water occurs to a very small extent. In pure water at 25°C, the concentration of hydrogen ions is only 1 × 10–7M. The concentration of OH– is also 1 × 10–7M because the numbers of H+ and OH– ions are equal in pure water. Any aqueous solution in which [H+] and [OH–] are equal is a neutral solution.")
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For aqueous solutions, the product of the hydrogen-ion concentration and the hydroxide-ion concentration equals 1.0 10–14. [H+] [OH–] = 1.0 10–14 This equation is true for all dilute aqueous solutions at 25°C. The product of the concentrations of the hydrogen ions and the hydroxide ions in water is called the ion-product constant for water (Kw). Kw = [H+] × [OH–] = 1.0 × 10–14 A solution in which [H+] is greater than [OH–] is an acidic solution. In acidic solutions, the [H+] is greater than 1 × 10–7M. A basic solution is one in which [H+] is less than [OH–]. The [H+] of a basic solution is less than 1 × 10–7M. Basic solutions are also known as alkaline solutions.
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You can use this equation to convert between pH and pOH
Kw = pH + pOH Kw always equals 14 So.. pH + pOH = 14 You can use this equation to convert between pH and pOH 7
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Sample problem: Calculating pH
Calculate the pH of a solution with a pOH of 12. 8
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Sample problem: Calculating pH
Calculate the pOH of a solution with a pH of 9. 9
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Sample problem: Calculating pH
Calculate the hydrogen ion concentration of a solution with a pH of 8.5. 10
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Sample problem: Calculating pH
Calculate the hydrogen ion concentration of a solution with a pOH of 13.5. 11
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