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