writing and naming ionic compounds

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Transcript writing and naming ionic compounds 

WRITING CHEMICAL
FORMULAS
&
NAMING COMPOUNDS
• Electrons in the same group have similar
chemical properties because they have the
same number of electrons in their valence
shell
• Chemical bonds form between 2 atoms
when electrons in the outer shell of each
atom form a stable arrangement together
• Any atom or group of atoms that carry an
electric charge is called an ion
CATIONS – Positively
Charged
• When a neutral atoms gives up an electron,
the positively charged ion is called a
CATION
• All alkali metals (Group 1) form cations
very easily
• They require little energy to remove that valence
electron
ANIONS – Negatively
Charged
• Non-metals gain electrons to obtain a
noble gas arrangement – ANIONS
• Halogens (group 17) must gain an electron to do so
• Halogens gain an electron easily and
release a great deal of energy – therefore,
they too are very reactive
• Chemical reactivity decreases as you move
down the group
FORMING COMPOUNDS
• An atom may acquire a valence shell
like that of its closest noble gas in
one of 3 ways:
i.) An atom may give up
electrons
• Atoms have an equal number of
positive protons and negative
electrons
• When an atom gives up one or more
electrons, it forms an ion with a
positive charge; a cation
ii.) An atom may gain
electrons
• When an atom gains one or more
electrons, it forms an ion with a
negative charge; an anion
iii.) An atom may share
electrons
• 2 atoms might share one, two or
three pairs of electrons
• The bonds that are formed when
atoms share electrons are called
single, double or triple bonds
• Substances that are composed of
anions and cations are called IONIC
COMPOUNDS
• Ionic Bond – the attraction between
oppositely charged ions
– Bond between a metal and a non-metal
• Covalent Bond – atoms that share a
pair of electrons
– Bond between 2 or more non-metals
• A neutral particle that is composed
of atoms joined together by covalent
bonds are called molecules
• Diatomic Molecule – a molecule that
contains 2 of the same atoms
• Examples of the diatomic molecules:
H2
O2
N2
Cl2
Br2
F2
I2
Writing Names and Formulas
of Binary Ionic Compounds
• Simple anions are named according to the element that
forms the anion with the ending changed to ide.
ELEMENT
name
Chlorine
Oxygen
Phosphorus
Bromine
ANION
symbol
name
symbol
Cl
Chloride
Cl-1
O
Oxide
O-2
P
Phosphide
P-3
Br
Bromide
Br-1
CROSS-OVER RULE
Sodium chloride
Metal
Non-metal
Na
-
Cl
Identify the chemicals as either a metal,
transitional metal or non-metal
Write out the chemical symbols of each
metal
non-metal
sodium chloride
Na
+1
-1
Cl
-1
+1
Identify the metal and
non-metal
NaCl
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges
from top to bottom
iv.) Remove the charge
v.) Simplify the numbers
and remove the 1’s
Opposites Attract
+1
Na
Cl
-1
*REMEMBER, that metals lose electrons and nonmetals gain electrons
metal
non-metal
Calcium oxide
Ca
+2
-2
O
-2
+2
Identify the metal and nonmetal
CaO
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges
from top to bottom
iv.) Remove the charge
v.) Simplify the numbers
and remove the 1’s
Opposites Attract
Ca
+2
O
-2
*REMEMBER, that metals lose electrons and nonmetals gain electrons
metal
non-metal
magnesium chloride
Mg
+2
-1
Cl
-1
+2
Identify the metal and
non-metal
MgCl2
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges
from top to bottom
iv.) Remove the charge
v.) Simplify the numbers
and remove the 1’s
-1
Cl Mg
+2
MgCl2
Cl
-1
metal
non-metal
calcium phosphide
Ca
+2
-3
P
-3
+2
Identify the metal and
non-metal
Ca3P2
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges
from top to bottom
iv.) Remove the charge
v.) Simplify the numbers
and remove the 1’s
PRACTICE QUESTIONS
Beryllium fluoride
Sodium nitride
Calcium sulfide
Aluminum chloride
Lithium phosphide
BeF2
Na3N
CaS
AlCl3
Li3P
Barium bromide
Gallium sulfide
Zinc bromide
Cesium phosphide
Germanium oxide
BaBr2
Ga2S3
ZnBr2
Cs3P
GeO2
Beryllium Fluoride
•
Identify the metal and non-metal
•
•
•
•
•
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges from top to bottom
iv.) Remove the charge
v.) Simplify the numbers and remove the 1’s
+2
Be
1
F
-1
2
BeF
2
Sodium nitride
•
Identify the metal and non-metal
•
•
•
•
•
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges from top to bottom
iv.) Remove the charge
v.) Simplify the numbers and remove the 1’s
+1
Na
3
N
-3
1
Na3N
Calcium sulfide
•
Identify the metal and non-metal
•
•
•
•
•
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges from top to bottom
iv.) Remove the charge
v.) Simplify the numbers and remove the 1’s
+2
-2
Ca S
2
2
CaS
Aluminum chloride
•
Identify the metal and non-metal
•
•
•
•
•
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges from top to bottom
iv.) Remove the charge
v.) Simplify the numbers and remove the 1’s
+3
-1
Al Cl
1
3
AlCl3
Lithium phosphide
•
Identify the metal and non-metal
•
•
•
•
•
i.) Write the symbols
ii.) Write the charges
iii.) Cross-over the charges from top to bottom
iv.) Remove the charge
v.) Simplify the numbers and remove the 1’s
+1
-3
Li P
3
1
Li P
3
NAMING COMPOUNDS
• Naming compounds from their
chemical symbol is similar to what
you’ve already done – just opposite
Ca3P2
+2
Ca 3
P
calcium phosphide
-3
2
i.) separate the two elements
ii.) add 1’s with the element that
has no number
iii.) cross-over from bottom to
top
iv.) add the charges – REMEMBER
that first one (metal) is positive
and the second (non-metal) is
negative
v.) make sure the charges match
those found in the Periodic Table
*** If they do not, MULTIPLY
both charges, with the same
number to find their true charge
vi.) write the name – the metal
stays the same but the non-metal
changes it’s ending to “ide”
AlBr3
+3
-1
Al 1 Br 3
aluminum bromide
i.) separate the two elements
ii.) add 1’s with the element that
has no number
iii.) cross-over from bottom to
top
iv.) add the charges – REMEMBER
that first one (metal) is positive
and the second (non-metal) is
negative
v.) make sure the charges match
those found in the Periodic Table
*** If they do not, MULTIPLY
both charges, with the same
number to find their true charge
vi.) write the name – the metal
stays the same but the non-metal
changes it’s ending to “ide”
MgO
×
+212
Mg 1 O
Oxygen should be a -2
magnesium oxide
×
2
-2
1
1
i.) separate the two elements
ii.) add 1’s with the element that
has no number
iii.) cross-over from bottom to
top
iv.) add the charges – REMEMBER
that first one (metal) is positive
and the second (non-metal) is
negative
v.) make sure the charges match
those found in the Periodic Table
*** If they do not, MULTIPLY
both charges, with the same
number to find the non-metals
true charge
vi.) write the name – the metal
stays the same but the non-metal
changes it’s ending to “ide”
PRACTICE QUESTIONS
LiI
lithium iodide
Ca3N2
calcium nitride
CaBr2
calcium bromide
Al2O3
aluminum oxide
Ag2O
silver oxide
BaCl2
barium chloride
BeS
beryllium sulfide
ScP
scandium phosphide
LiI
• i.) separate the two elements
Li
I
• ii.) add 1’s with the element that has no number Li1 I1
• iii.) cross-over from bottom to top
Li11
I1 1
• iv.) add the charges – REMEMBER that first one (metal) is
positive and the second (non-metal) is negative
Li+11
I1-1
• v.) make sure the charges match those found in the Periodic
Table
• *** If they do not, MULTIPLY both charges, with the same
number to find their true charge
•
•
vi.) write the name – the metal stays the same but
the non-metal changes it’s ending to “ide”
lithium iodide
CaBr2
• i.) separate the two elements
Ca
Br
• ii.) add 1’s with the element that has no number Ca1 Br2
• iii.) cross-over from bottom to top
Ca21
Br21
• iv.) add the charges – REMEMBER that first one (metal) is
positive and the second (non-metal) is negative
Ca+21 Br2-1
• v.) make sure the charges match those found in the Periodic
Table
• *** If they do not, MULTIPLY both charges, with the same
number to find their true charge
•
•
vi.) write the name – the metal stays the same but
the non-metal changes it’s ending to “ide”
calcium bromide
Ca3N2
• i.) separate the two elements
Ca
N
• ii.) add 1’s with the element that has no number Ca3 N2
• iii.) cross-over from bottom to top
Ca23
N2 3
• iv.) add the charges – REMEMBER that first one (metal) is
positive and the second (non-metal) is negative
Ca+23
N2-3
• v.) make sure the charges match those found in the Periodic
Table
• *** If they do not, MULTIPLY both charges, with the same
number to find their true charge
•
•
vi.) write the name – the metal stays the same but
the non-metal changes it’s ending to “ide”
calcium nitride
Al2O3
• i.) separate the two elements
Al
O
• ii.) add 1’s with the element that has no number Al2 O3
• iii.) cross-over from bottom to top
Al32 O32
• iv.) add the charges – REMEMBER that first one (metal) is
positive and the second (non-metal) is negative
Al+32
O3-2
• v.) make sure the charges match those found in the Periodic
Table
• *** If they do not, MULTIPLY both charges, with the same
number to find their true charge
•
•
vi.) write the name – the metal stays the same but
the non-metal changes it’s ending to “ide”
aluminum oxide