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