Ionization They break apart into ions No FREE ions Increases melting point The ions separate and move freely Strong Bond Energy Triple Bond Different Electronegativity They dissolve Positive and Negative Ions Positive and Negative Ions Crystal Lattice Dipole- dipole Interaction Ionic Bond Negative (-2) Negative (-2) They tend to break or shatter They tend to break or shatter Polar Covalent Bond Ionization Single Bond Anion (O²⁻) Dissociation Nonpolar Covalent Bond High Boiling Points High Conductivity Polarity Dissociation Ionic Bond Increases melting point More Polar They Dissociate into Ions Crystal Lattice High Electrical Conductivity When Molten Anion (O²⁻) Nonmetal to Nonmetal Different Electronegativity Crystalline and often colorless More Polar Lattice Energy Decreases Ionic Compound Soluble They may melt or decompose Liquid, Solid, Gas Hard and Brittle Metals and Nonmetals Ion Formation Metals Molecular Geometry Hard and Brittle Ionic Compound Resonance And Yes Lattice Energy They dissolve The ions separate and move freely They may melt or decompose Covalent Bond Polarity They Dissociate into Ions High Melting Point Low Boiling Point High Melting Point High Conductivity They break apart into ions Metals and Nonmetals Crystalline and often colorless Molecule High Boiling Points Low Melting Point High Electrical Conductivity When Molten Flexibility Bond Length Polar Covalent Bond Ionization They break apart into ions No FREE ions Increases melting point The ions separate and move freely Strong Bond Energy Triple Bond Different Electronegativity They dissolve Positive and Negative Ions Positive and Negative Ions Crystal Lattice Dipole- dipole Interaction Ionic Bond Negative (-2) Negative (-2) They tend to break or shatter They tend to break or shatter Polar Covalent Bond Ionization Single Bond Anion (O²⁻) Dissociation Nonpolar Covalent Bond High Boiling Points High Conductivity Polarity Dissociation Ionic Bond Increases melting point More Polar They Dissociate into Ions Crystal Lattice High Electrical Conductivity When Molten Anion (O²⁻) Nonmetal to Nonmetal Different Electronegativity Crystalline and often colorless More Polar Lattice Energy Decreases Ionic Compound Soluble They may melt or decompose Liquid, Solid, Gas Hard and Brittle Metals and Nonmetals Ion Formation Metals Molecular Geometry Hard and Brittle Ionic Compound Resonance And Yes Lattice Energy They dissolve The ions separate and move freely They may melt or decompose Covalent Bond Polarity They Dissociate into Ions High Melting Point Low Boiling Point High Melting Point High Conductivity They break apart into ions Metals and Nonmetals Crystalline and often colorless Molecule High Boiling Points Low Melting Point High Electrical Conductivity When Molten Flexibility Bond Length Polar Covalent Bond
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
Ionization
They break apart into ions
No FREE ions
Increases melting point
The ions separate and move freely
Strong Bond Energy
Triple Bond
Different Electronegativity
They dissolve
Positive and Negative Ions
Positive and Negative Ions
Crystal Lattice
Dipole-dipole Interaction
Ionic Bond
Negative (-2)
Negative (-2)
They tend to break or shatter
They tend to break or shatter
Polar Covalent Bond
Ionization
Single Bond
Anion (O²⁻)
Dissociation
Nonpolar Covalent Bond
High Boiling Points
High Conductivity
Polarity
Dissociation
Ionic Bond
Increases melting point
More Polar
They Dissociate into Ions
Crystal Lattice
High Electrical Conductivity When Molten
Anion (O²⁻)
Nonmetal to Nonmetal
Different Electronegativity
Crystalline and often colorless
More Polar
Lattice Energy
Decreases
Ionic Compound
Soluble
They may melt or decompose
Liquid, Solid, Gas
Hard and Brittle
Metals and Nonmetals
Ion Formation
Metals
Molecular Geometry
Hard and Brittle
Ionic Compound
Resonance
And Yes
Lattice Energy
They dissolve
The ions separate and move freely
They may melt or decompose
Covalent Bond
Polarity
They Dissociate into Ions
High Melting Point
Low Boiling Point
High Melting Point
High Conductivity
They break apart into ions
Metals and Nonmetals
Crystalline and often colorless
Molecule
High Boiling Points
Low Melting Point
High Electrical Conductivity When Molten
Flexibility
Bond Length
Polar Covalent Bond