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Chapter 6 Solutions, Acids, Bases

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Title: Chapter 6 Solutions, Acids, Bases

1
ACIDS, BASES, AND pH

2
Aqueous Solutions
How do we know ions are present?

The solutions conduct electricity!
They are called ELECTROLYTES
HCl, MgCl2, and NaCl are strong electrolytes.
They dissociate completely (or nearly so) into
ions.

3
Aqueous Solutions

weak electrolyte,
like Acetic acid, ionizes only to a small extent,
CH3CO2H(aq) t
CH3CO2-(aq) H(aq)

4
Aqueous Solutions

Some compounds dissolve in water but do not
conduct electricity. They are called
nonelectrolytes.

Examples include sugar ethanol ethylene glycol
5
Acid Properties

Sour taste (grape fruit)
Found in many fruits
Vinegar
Will burn if not diluted
Made up of Nonmetals
Acid formulas usually start with hydrogen- ex
HCl, H2SO4

6
Base Properties

Bitter taste
Slippery feel
Most household cleaners
Also dangerous if not diluted
Made up of a metal and nonmetals in formulas
Arrhenius bases start with metals in their
formulas and end with a OH- ex NaOH, KOH, Ba(OH)2

7
Arrhenius Theory

Substances ionize in water
Acids, bases, and salts when dissolved in water,
will conduct electricity.
Called Electrolytes

8
Arrhenius Theory

Acids release hydrogen ions (H)
HCl ? H Cl-
Bases release hydroxide ions (OH-)
NaOH ? Na OH-

9
Strong and Weak Acids/Bases

Generally divide acids and bases into STRONG or
WEAK ones.
STRONG ACID HNO3(aq) H2O(liq)
---gt H3O(aq) NO3-(aq)
HNO3 is about 100 dissociated in water.

10
Strong and Weak Acids/Bases
HNO3, HCl, H2SO4 and HClO4 are among the only
known strong acids.
11
Strong Acids will completely ionize
12
Strong and Weak Acids/Bases

Weak acids are much less than 100 ionized in
water.
One of the best known is acetic acid CH3CO2H

13
Strong and Weak Acids/Bases

Strong Base 100 dissociated in water.
NaOH(aq) ---gt Na(aq) OH-(aq)

Other common strong bases include KOH and
Ca(OH)2. CaO (lime) H2O --gt Ca(OH)2
(slaked lime)
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15
Strong and Weak Acids/Bases

Weak base less than 100 ionized in water
One of the best known weak bases is ammonia
NH3(aq) H2O(liq) e NH4(aq) OH-(aq)

16
ACID-BASE THEORIES

The most general theory for common aqueous acids
and bases is the BRØNSTED - LOWRY theory
ACIDS DONATE H IONS
BASES ACCEPT H IONS

17
Bronsted Base adds one hydrogen ion
Reactants
Products

Bronsted Acid removes one hydrogen ion

18
ACID-BASE THEORIES

NH3 is a BASE in water and water is itself an
ACID

NH3 / NH4 is a conjugate pair related by the
gain or loss of H Every acid has a conjugate
base - and vice-versa.
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20
Conjugate Pairs
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22
You Practice

NH3 H2O ? NH4 OH-
HNO3 NaOH ? H2O NaNO3
NaHCO3 HCl ? NaCl H2CO3

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24
Amphoteric

A substance having the ability to act as an acid
or a base

or AmphoPROTIC Hydrogen ion proton

Water is an example

25
Water is amphoprotic
It can gain and lose a H
26

Hydronium ion An ion formed when a free H
forms with water to form an H3O

27
Why is Water Neutral?
H3O OH-
When one water gains, another loses a H
28
The pH scale only for water solutions
Basic more OH-
Neutral H3O OH-
Acidic more H3O
29
Relative ion concentrations

pH is a relative measure of the hydrogen ion
concentration
pH is a rating
ranges from 0 14
0 most, 7 equal, 14 least

30
Why at a pH 7 ?

Determined by concentration X of each ion
H OH- 10-7M
The concentration of hydrogen ion equals the
concentration of hydroxide ion equals ten to the
negative seventh molar concentration

Need to remember molarity and concentration
31
H3O, OH- and pH