They tend to break or shatter They break apart into ions Ionic Bond Ionization Different Electronegativity High Conductivity Crystal Lattice Metals and Nonmetals Negative (-2) Anion (O²⁻) High Electrical Conductivity When Molten Lattice Energy Ionic Compound They may melt or decompose Increases melting point More Polar Negative (-2) Crystal Lattice Lattice Energy Dissociation They may melt or decompose Anion (O²⁻) Ionization Positive and Negative Ions They dissolve Increases melting point High Electrical Conductivity When Molten They tend to break or shatter High Melting Point Hard and Brittle They Dissociate into Ions Ionic Bond The ions separate and move freely Dissociation More Polar Ionic Compound Metals and Nonmetals High Boiling Points They Dissociate into Ions High Melting Point They dissolve Positive and Negative Ions Crystalline and often colorless Different Electronegativity High Conductivity The ions separate and move freely Hard and Brittle High Boiling Points They break apart into ions Crystalline and often colorless They tend to break or shatter They break apart into ions Ionic Bond Ionization Different Electronegativity High Conductivity Crystal Lattice Metals and Nonmetals Negative (-2) Anion (O²⁻) High Electrical Conductivity When Molten Lattice Energy Ionic Compound They may melt or decompose Increases melting point More Polar Negative (-2) Crystal Lattice Lattice Energy Dissociation They may melt or decompose Anion (O²⁻) Ionization Positive and Negative Ions They dissolve Increases melting point High Electrical Conductivity When Molten They tend to break or shatter High Melting Point Hard and Brittle They Dissociate into Ions Ionic Bond The ions separate and move freely Dissociation More Polar Ionic Compound Metals and Nonmetals High Boiling Points They Dissociate into Ions High Melting Point They dissolve Positive and Negative Ions Crystalline and often colorless Different Electronegativity High Conductivity The ions separate and move freely Hard and Brittle High Boiling Points They break apart into ions Crystalline and often colorless
(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.
They tend to break or shatter
They break apart into ions
Ionic Bond
Ionization
Different Electronegativity
High Conductivity
Crystal Lattice
Metals and Nonmetals
Negative (-2)
Anion (O²⁻)
High Electrical Conductivity When Molten
Lattice Energy
Ionic Compound
They may melt or decompose
Increases melting point
More Polar
Negative (-2)
Crystal Lattice
Lattice Energy
Dissociation
They may melt or decompose
Anion (O²⁻)
Ionization
Positive and Negative Ions
They dissolve
Increases melting point
High Electrical Conductivity When Molten
They tend to break or shatter
High Melting Point
Hard and Brittle
They Dissociate into Ions
Ionic Bond
The ions separate and move freely
Dissociation
More Polar
Ionic Compound
Metals and Nonmetals
High Boiling Points
They Dissociate into Ions
High Melting Point
They dissolve
Positive and Negative Ions
Crystalline and often colorless
Different Electronegativity
High Conductivity
The ions separate and move freely
Hard and Brittle
High Boiling Points
They break apart into ions
Crystalline and often colorless