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