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Chapter 8 Acids and Bases
8.4 Ionization of Water Copyright © by Pearson Education, Inc. Publishing as Benjamin Cummings
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Ionization of Water In water,
H+ is transferred from one H2O molecule to another. one water molecule acts as an acid, while another acts as a base. H2O H2O H3O OH− :O: H + H:O: H:O:H :O:H− H H H water water hydronium hydroxide ion (+) ion (-)
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Pure Water is Neutral In pure water,
the ionization of water molecules produces small, but equal quantities of H3O+ and OH− ions. molar concentrations are indicated in brackets as [H3O+] and [OH−]. [H3O+] = 1.0 x 10−7 M [OH−] = 1.0 x 10−7 M Copyright © by Pearson Education, Inc. Publishing as Benjamin Cummings
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Acidic Solutions Adding an acid to pure water increases the [H3O+].
cause the [H3O+] to exceed 1.0 x 10-7 M. decreases the [OH−].
![Acidic Solutions Adding an acid to pure water increases the [H3O+].](http://slideplayer.com/slide/13888866/85/images/4/Acidic+Solutions+Adding+an+acid+to+pure+water+increases+the+%5BH3O%2B%5D..jpg "cause the [H3O+] to exceed 1.0 x 10-7 M. decreases the [OH−].")
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Basic Solutions Adding a base to pure water increases the [OH−].
causes the [OH−] to exceed 1.0 x 10− 7M. decreases the [H3O+]. Copyright © by Pearson Education, Inc. Publishing as Benjamin Cummings
![Basic Solutions Adding a base to pure water increases the [OH−].](http://slideplayer.com/slide/13888866/85/images/5/Basic+Solutions+Adding+a+base+to+pure+water+increases+the+%5BOH%E2%88%92%5D..jpg "causes the [OH−] to exceed 1.0 x 10− 7M. decreases the [H3O+]. Copyright © 2005 by Pearson Education, Inc. Publishing as Benjamin Cummings.")
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Comparison of [H3O+] and [OH−]
![Comparison of [H3O+] and [OH−]](http://slideplayer.com/slide/13888866/85/images/6/Comparison+of+%5BH3O%2B%5D+and+%5BOH%E2%88%92%5D.jpg "Comparison of [H3O+] and [OH−]")
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Ion Product of Water, Kw The ion product constant, Kw, for water
is the product of the concentrations of the hydronium and hydroxide ions. Kw = [ H3O+] [ OH− ] can be obtained from the concentrations in pure water. Kw = [1.0 x 10− 7 M] x [ 1.0 x 10− 7 M] = x 10− 14
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[H3O+] and [OH−] in Solutions
In neutral, acidic, or basic solutions, the Kw is always 1.0 x 10−14.
![[H3O+] and [OH−] in Solutions](http://slideplayer.com/slide/13888866/85/images/8/%5BH3O%2B%5D+and+%5BOH%E2%88%92%5D+in+Solutions.jpg "In neutral, acidic, or basic solutions, the Kw is always 1.0 x 10−14.")
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Guide to Calculating [H3O+]
![Guide to Calculating [H3O+]](http://slideplayer.com/slide/13888866/85/images/9/Guide+to+Calculating+%5BH3O%2B%5D.jpg "Guide to Calculating [H3O+]")
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Calculating [H3O+] What is the [H3O+] of a solution if [OH−] is 5.0 x 10-8 M? STEP 1: Write the Kw for water. Kw = [H3O+ ][OH− ] = 1.0 x 10−14 STEP 2: Rearrange the Kw expression. [H3O+] = x 10-14 [OH−] STEP 3: Substitute [OH−]. [H3O+] = 1.0 x = 2.0 x 10-7 M 5.0 x 10- 8
![Calculating [H3O+] What is the [H3O+] of a solution if [OH−] is 5.0 x 10-8 M STEP 1: Write the Kw for water.](http://slideplayer.com/slide/13888866/85/images/10/Calculating+%5BH3O%2B%5D+What+is+the+%5BH3O%2B%5D+of+a+solution+if+%5BOH%E2%88%92%5D+is+5.0+x+10-8+M+STEP+1%3A+Write+the+Kw+for+water..jpg "Kw = [H3O+ ][OH− ] = 1.0 x 10−14. STEP 2: Rearrange the Kw expression. [H3O+] = 1.0 x [OH−] STEP 3: Substitute [OH−]. [H3O+] = 1.0 x = 2.0 x 10-7 M. 5.0 x")
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Learning Check If lemon juice has [H3O+] of 2 x 10−3 M, what is the [OH−] of the solution? 1) 2 x 10−11 M 2) 5 x 10−11 M 3) 5 x 10−12 M
![Learning Check If lemon juice has [H3O+] of 2 x 10−3 M, what is the [OH−] of the solution 1) 2 x 10−11 M.](http://slideplayer.com/slide/13888866/85/images/11/Learning+Check+If+lemon+juice+has+%5BH3O%2B%5D+of+2+x+10%E2%88%923+M%2C+what+is+the+%5BOH%E2%88%92%5D+of+the+solution+1%29+2+x+10%E2%88%9211+M..jpg "2) 5 x 10−11 M. 3) 5 x 10−12 M.")
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Solution 3) 5 x 10−12 M Rearrange the Kw to solve for [OH- ]
Kw = [H3O+ ][OH− ] = x 10−14 [OH− ] = 1.0 x = 5 x 10−12 M 2 x
![Solution 3) 5 x 10−12 M Rearrange the Kw to solve for [OH- ]](http://slideplayer.com/slide/13888866/85/images/12/Solution+3%29+5+x+10%E2%88%9212+M+Rearrange+the+Kw+to+solve+for+%5BOH-+%5D.jpg "Kw = [H3O+ ][OH− ] = 1.0 x 10−14. [OH− ] = 1.0 x = 5 x 10−12 M. 2 x")
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Learning Check The [OH−] of an ammonia solution is 4.0 x 10−2 M. What is the [H3O+ ] of the solution? 1) 2.5 x 10− 11 M 2) 2.5 x 10−12 M 3) 2.5 x 10−13 M
![Learning Check The [OH−] of an ammonia solution is 4.0 x 10−2 M. What is the [H3O+ ] of the solution](http://slideplayer.com/slide/13888866/85/images/13/Learning+Check+The+%5BOH%E2%88%92%5D+of+an+ammonia+solution+is+4.0+x+10%E2%88%922+M.+What+is+the+%5BH3O%2B+%5D+of+the+solution.jpg "1) 2.5 x 10− 11 M. 2) 2.5 x 10−12 M. 3) 2.5 x 10−13 M.")
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Solution 3) 2.5 x 10−13 M [ H3O+] = 1.0 x 10−14 = 2.5 x 10−13 M
![Solution 3) 2.5 x 10−13 M [ H3O+] = 1.0 x 10−14 = 2.5 x 10−13 M](http://slideplayer.com/slide/13888866/85/images/14/Solution+3%29+2.5+x+10%E2%88%9213+M+%5B+H3O%2B%5D+%3D+1.0+x+10%E2%88%9214+%3D+2.5+x+10%E2%88%9213+M.jpg "Solution 3) 2.5 x 10−13 M [ H3O+] = 1.0 x 10−14 = 2.5 x 10−13 M")
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