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Chemical Formulas

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Title: Chemical Formulas


1
Chemical Formulas
  • Writing Binary Compounds
  • Tim Bass

2
Chemical Formulas
  • A shorthand method of representing the makeup of
    chemicals using chemical symbols and oxidation
    numbers.
  • Positive Ions always go 1st in the formula.
  • Negative Ions always go last.
  • Ionic Bonded chemical formulas are always written
    as empirical formulas.
  • Empirical Formula The smallest whole number
    ratio of elements in a compound.

3
Golden Rule For Formulas
  • The sum of the oxidation s zero!!
  • Mg2 Cl-1
  • K1 O-2

Sum of the oxidation numbers always equal zero!!!!
4
Charged Particles
  • Ion a particle with an electrical charge.
  • Cation a positively charged ion.
  • Anion a negatively charged ion.
  • Cation always goes 1st in the formula.
  • Anion always goes last in the formula.

5
Oxidation Number
  • Oxidation Number The apparent charge on an
    atom.
  • The charge on an ion.
  • Also called the valence.
  • Example Ca2 Cl-1

Calcium 20P 20N 18 e-
Chlorine 17p 18N 18e-
6
Noble Gas
  • The greater the stability the less active a
    substance becomes.
  • The noble gasses are the least active substances
    (therefore are very stable and low energy).
  • When the outer shells of an element are full the
    atom is at a much lower energy level.

7
Shorthand Notation
  • 10Ne 1s2 2s2 2p6
  • (8 valence electrons)
  • 18Ar 1s2 2s2 2p6 3s2 3p6
  • (8 valence electrons)
  • 36Kr 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p6
  • (8 valence electrons)
  • All noble gases (except He) have 8 valence
    electrons.

8
Noble Gas (Octet) Law
  • Noble Gas Law When forming compounds, elements
    tend to gain or lose electrons until they have an
    electron configuration similar to one of the
    noble gases.
  • Metals tend to lose electrons (become cations)
  • Nonmetals tend to gain electrons (become anions)

9
Metals and Nonmetals
Nonmetals
Metals
10
Oxidation Examples
  • Na Cl -? Na1Cl-1
  • Mg Cl ? Mg2Cl-1
  • Al Cl ? Al3Cl-1

Mg 2Cl ? Mg2Cl2-1
Al 3Cl ? Al3Cl3-1
11
Oxidation Numbers
  • The sum of the oxidation numbers in a chemical
    formula must equal zero.
  • This is the golden rule of writing formulas for
    inorganic compounds!
  • There is only one category that does not follow
    this rule. They follow the rule also, but the
    rules change a little to apply to them.
  • Nonmetals bonded to nonmetals
  • .

12
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13
Subscripts
  • Subscript Small numbers to the
    lower right of a symbol.
  • Represent the number of atoms of that element in
    the compound.
  • Affects only the element immediately in front of
    the subscript.
  • Coefficient Large number in front of a chemical
    formula.
  • Affects everything following the coefficient.

14
H2O
  • Hydrogen
  • Oxidation X Subscript
  • 1 X 2 2
  • Oxygen
  • Oxidation X Subscript
  • - 2 X 1 - 2
  • Sum of oxidation numbers 0
  • ( 2 ) ( - 2 ) 0

15
A Shortcut
M a k e t h e o x i d a t i o n o f o n
e e l e m e n t t h e s u b s c r i p t o
f t h e o t h e r e l e m e n t .
16
A Shortcut
  • There is one problem!
  • These subscripts will reduce.
  • Remember Ionic bonded compounds are always
    written as an empirical formula.

2 - 2
C a 2 O 2
C a O
17
Polyatomic Ion
  • An ion made up of more than one atom that
    behaves like one atom.

18
Polyatomic Ion
  • Never change subscripts within a polyatomic ion.
    (Changes the polyatomic ion.)
  • If more than one polyatomic ion is needed, put
    parenthesis around the ion and add the subscript
    needed outside the parenthesis.
  • NH4OH Ammonium Hydroxide
  • (NH4)2O Ammonium Oxide
  • Al(MnO4)3 Aluminum Permanganate

19
Polyatomic Ion
  • The sum of the oxidation numbers in an ion is
    equal to the charge on the ion.
  • You must learn the names, formulas, and charges
    of the most common ions.
  • MnO4-1 Permanganate
  • OH-1 Hydroxide
  • CN-1 Cyanide
  • NH41 Ammonium

20
Warnings
  1. Once the sum of the oxidation s 0, do not
    change the formula.
  2. Parenthesis are only for polyatomic ions, and
    only if they are needed two times or more in a
    chemical formula.
  3. Always make sure that the final chemical formula
    is an empirical formula!

21
Chemical Formulas
  • E n d
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