High Conductivity Ionic Bond Crystalline and often colorless They break apart into ions Nonpolar Covalent Bond More Polar Metals and Nonmetals More Polar They may melt or decompose They tend to break or shatter Metals The ions separate and move freely Ionization Molecular Geometry High Conductivity Hard and Brittle Polar Covalent Bond Nonmetal to Nonmetal Polarity Lattice Energy Molecule Crystal Lattice Ionic Bond Positive and Negative Ions Dissociation Single Bond No FREE ions Dipole- dipole Interaction They Dissociate into Ions Anion (O²⁻) Low Melting Point Liquid, Solid, Gas Negative (-2) They dissolve They break apart into ions High Electrical Conductivity When Molten Bond Length High Electrical Conductivity When Molten They dissolve Increases melting point Negative (-2) Lattice Energy Soluble They Dissociate into Ions Dissociation Low Boiling Point Increases melting point Flexibility Polar Covalent Bond The ions separate and move freely Polarity High Melting Point High Boiling Points Ionic Compound Ionic Compound Ionization Strong Bond Energy Decreases They may melt or decompose Different Electronegativity Resonance Hard and Brittle Crystalline and often colorless Positive and Negative Ions Triple Bond High Boiling Points Metals and Nonmetals Different Electronegativity They tend to break or shatter Anion (O²⁻) High Melting Point And Yes Ion Formation Crystal Lattice Covalent Bond High Conductivity Ionic Bond Crystalline and often colorless They break apart into ions Nonpolar Covalent Bond More Polar Metals and Nonmetals More Polar They may melt or decompose They tend to break or shatter Metals The ions separate and move freely Ionization Molecular Geometry High Conductivity Hard and Brittle Polar Covalent Bond Nonmetal to Nonmetal Polarity Lattice Energy Molecule Crystal Lattice Ionic Bond Positive and Negative Ions Dissociation Single Bond No FREE ions Dipole- dipole Interaction They Dissociate into Ions Anion (O²⁻) Low Melting Point Liquid, Solid, Gas Negative (-2) They dissolve They break apart into ions High Electrical Conductivity When Molten Bond Length High Electrical Conductivity When Molten They dissolve Increases melting point Negative (-2) Lattice Energy Soluble They Dissociate into Ions Dissociation Low Boiling Point Increases melting point Flexibility Polar Covalent Bond The ions separate and move freely Polarity High Melting Point High Boiling Points Ionic Compound Ionic Compound Ionization Strong Bond Energy Decreases They may melt or decompose Different Electronegativity Resonance Hard and Brittle Crystalline and often colorless Positive and Negative Ions Triple Bond High Boiling Points Metals and Nonmetals Different Electronegativity They tend to break or shatter Anion (O²⁻) High Melting Point And Yes Ion Formation Crystal Lattice Covalent Bond
(Print)
High Conductivity
Ionic Bond
Crystalline and often colorless
They break apart into ions
Nonpolar Covalent Bond
More Polar
Metals and Nonmetals
More Polar
They may melt or decompose
They tend to break or shatter
Metals
The ions separate and move freely
Ionization
Molecular Geometry
High Conductivity
Hard and Brittle
Polar Covalent Bond
Nonmetal to Nonmetal
Polarity
Lattice Energy
Molecule
Crystal Lattice
Ionic Bond
Positive and Negative Ions
Dissociation
Single Bond
No FREE ions
Dipole-dipole Interaction
They Dissociate into Ions
Anion (O²⁻)
Low Melting Point
Liquid, Solid, Gas
Negative (-2)
They dissolve
They break apart into ions
High Electrical Conductivity When Molten
Bond Length
High Electrical Conductivity When Molten
They dissolve
Increases melting point
Negative (-2)
Lattice Energy
Soluble
They Dissociate into Ions
Dissociation
Low Boiling Point
Increases melting point
Flexibility
Polar Covalent Bond
The ions separate and move freely
Polarity
High Melting Point
High Boiling Points
Ionic Compound
Ionic Compound
Ionization
Strong Bond Energy
Decreases
They may melt or decompose
Different Electronegativity
Resonance
Hard and Brittle
Crystalline and often colorless
Positive and Negative Ions
Triple Bond
High Boiling Points
Metals and Nonmetals
Different Electronegativity
They tend to break or shatter
Anion (O²⁻)
High Melting Point
And Yes
Ion Formation
Crystal Lattice
Covalent Bond
