Acids and Bases—Definitions Strong Acids and Bases Chemical Equilibrium Weak Acids and Bases
Unit #4 (part 2) Acids and Bases. Everyday life includes contact with many acids and bases.
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Transcript of Unit #4 (part 2) Acids and Bases. Everyday life includes contact with many acids and bases.
![Page 1: Unit #4 (part 2) Acids and Bases. Everyday life includes contact with many acids and bases.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649efe5503460f94c1353c/html5/thumbnails/1.jpg)
Unit #4 (part 2)
Acids and Bases
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Acids and Bases
• Everyday life includes contact with many acids and bases
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Strong Acids:
• Strong acids ionize completely to H+
• HCl (aq) → H+ (aq) + Cl- (aq)• In a solution of 1.0 M HCl, there is 1M H+ and 1M Cl-
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Weak Acids:
• Ionize only partially
HC2H3O2(aq) H+1(aq) + C2H3O2
-1(aq)
In a solution of a weak acid greater than 95% will typically remain as molecules.
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Strong Bases:
• Strong bases ionize completely to OH-
• NaOH (s) → Na+ (aq) + OH- (aq)
• Ca(OH)2(s) → Ca2+ (aq) + 2 OH- (aq)
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Weak Bases:
• Ionize only partially
NH3(aq) +H2O(l) NH4+1
(aq) + OH-1(aq)
Weak bases are often Nitrogen containing compounds that react with water to form hydroxide ions.
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pH-potential of hydrogen
• a measure of the acidity or basicity of a substance• Scale from 0 to 14• 0-7=acid• 7=neutral• 7-14=base
pH = - log [H+1] Kw=[H+1][OH-1]=1x10-14
14 =pH+pOH
[H+1] = 10-pH *on calc. = 2nd 10x (-) pH
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Strong Acid – Strong Base Reactions:
Neutralization Reaction:
Double replacement reaction, one product will always be water; best to write as H(OH)
Example:
H2SO4 + NaOH
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Strong Acids and Bases:
Must be memorized:
Strong Acids:Br I Cl SO4 NO3 ClO4
Strong Bases:hydroxides of group I except the first 1(H) and group II except the first 2(Be and Mg)
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Example:
Write the neutralization reaction for HI and NaOH.
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Acid-Base Titrations
• Commonly used laboratory method to determine the Molarity of a solution.
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Vocab:
• Indicator – chemical dye that changes color a specific pH or range of pH values
• Endpoint – the place in the titration process where the indicator changes color
• Equivalent Point – the place in the titration where moles of acid = moles of base
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Titrations
A solution of known concentration is added to one of unknown concentration to determine its concentration. Molarity is used as a conversion factor.
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Example:
A beaker containing 25.00mL of H2S is titrated with 1.50M NaOH. If the process requires 15.65mL of NaOH, what is the molarity of the H2S?
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Bronsted-Lowry Theory
• Acid – Hydrogen ion donor• Base – hydrogen ion acceptor• Conjugate acid – product of the base• Conjugate bases – product of the acid• Amphiprotic – substance that can serve as an acid
or a base
• Examples: HCl as an acid and NH3 as a base
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Properties of Acids and Bases:
Acid Base
Sour tasting; citrus fruits, vinegar, soda
Bitter tasting; soap, shampoo, drain cleaner
Waxy texture Slippery texture
pH 0-7; turns blue litmus red pH 7-14; turns red litmus blue
Neutralize bases to form salt and water
Neutralize acids to form salt and water
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Acid Naming:
• No oxygens = Hydro_________ic acid
• Anion has –ate or –ite ending:• Per____________ic acid• ______________ic acid• ______________ous acid• Hypo__________ous acid