ionic bonding and compounds
DESCRIPTION
Ionic Bonding and Compounds. Naming & Formula Writing Created by P. Perkerson. Monatomic Ions. Charged particles composed of one type of atom Cations (+) or anions (-) atoms lose or gain electrons to become stable Oppositely charged ions are attracted to each other and form an ionic bond - PowerPoint PPT PresentationTRANSCRIPT
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Ionic Bonding and Compounds
Naming & Formula Writing
Created by P. Perkerson
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Monatomic Ions
Charged particles composed of one type of atom
Cations (+) or anions (-) atoms lose or gain electrons to become stable
Oppositely charged ions are attracted to each other and form an ionic bond
Ex. Na+ Cl- form NaCl
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Binary Compounds
Composed of a cation and an anion Metal and a nonmetal Neutral (total + and – charges
cancel) Use subscripts to make charges = 0 Ions are in smallest whole # ratio Naming – cation first (name of
metal), anion second (name of nonmetal with an “ide” ending
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Binary Examples
Lithium and oxygen Li+ O2- forms Li2O Lithium oxide
Magnesium and sulfur Mg2+ S2- forms MgS Magnesium sulfide
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Try the criss cross method!
If the charges equal zero, no subscripts are required.
If they don’t equal zero, use subscripts to make the total charge zero.
Strontium and phosphorus Sr2+ P3-
Sr3P2 Strontium phosphide
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You try it!
Potassium and bromine KBr potassium bromide Calcium and phosphorus Ca3P2 calcium phosphide Aluminum and chlorine AlCl3 aluminum chloride Sodium and nitrogen Na3N sodium nitride
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Characteristics of Ionic Compounds
Electrically neutral as solids High melting point Brittle solids Water soluble Solutions are good electrical
conductors
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Binary Compounds with Transition Metals
Transition metals may have more than one charge
When naming, must indicate charge with a Roman Numeral – look at what it is bonded with to determine
Ex. CuCl2 copper (II) chloride CuCl copper (I) chloride
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Formula Writing with Transitions
The Roman numeral in the name tells the charge of the transition metal.
Ex. Chromium (III) oxide Cr2O3 Exceptions: Zn & Cd are always 2+
and silver is always 1+ so no Roman numeral is used
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Other Exceptions
Lead and Tin are not transition metals but they act like them – can have more than one charge.
Therefore, a Roman numeral is used when naming ionic compounds containing them.
SnO2 tin (IV) oxide
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Now you try it!
Iron (III) oxide Fe2O3 Nickel (II) nitride Ni3N2 Cu2S Copper (I) sulfide Co3P2 Cobalt (II) phosphide
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STOP!!! DON’T GO ANY FURTHER!!
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REALLY!! YOU ARE DONE – NO MORE!!
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Tertiary Ionic Compounds
Composed of either a cation or anion and a polyatomic ion
Polyatomic ions are covalently bonded atoms that behave as a charged particle. (most are anions)
When naming, use same naming rules except give the polyatomic its same name
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Tertiary Example
Calcium and phosphate Ca2+ PO4
3- form Ca3(PO4)2 Calcium phosphate Note that when more than one of a
polyatomic ion is required in the formula, the PAI is in () with the subscript outside the ()
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Try these!
Aluminum and acetate Al(C2H3O2)3 Magnesium and sulfate MgSO4 Copper (II) phosphate Cu3(PO4)2 Iron (II) carbonate FeCO3 Ammonium and nitrite NH4NO2 Nickel (II) hydroxide Ni(OH)2