Helium *noble gas *has a full outer electron shell with 2 electrons *2 protons Sulfur *nonmetal *6 valence electrons *3 electron shells/energy levels Neon *noble gas *has a full outer electron shell with 8 electrons in it *row 2 *non-reactive Chlorine *halogen *3 electron shells/energy levels *7 valence electrons Beryllium *alkaline earth metal *row 2 *2 valence electrons Boron *metalloid *column 13 *3 valence electrons Hydrogen *halogen *column 1 *1 proton *small atomic radius Oxygen *pretty reactive nonmetal *2 electron shells/ energy levels *6 valence electrons Potassium *alkali metal *19 protons *atomic symbol: K Argon *noble gas *8 valence electrons *3 electron shells/energy levels Lithium *alkali metal *row 2 *1 valence electron Iodine *halogen *relatively large atomic radius *5 electron shells/energy levels Gold *transition metal *6 electron shells/energy levels *atomic symbol: Au Aluminum *transition metal *3 valence electrons *3 electron shells/ energy levels Arsenic *metalloid *5 valence electrons *4 electron shells/energy levels Silicon *metalloid *3 electron shells/energy levels *readily forms covalent bonds Magnesium *alkaline earth metal *12 protons *3 electron shells/energy levels Fluorine *halogen *highly reactive *row 2 *7 valence electrons Nitrogen *nonmetal *5 valence electrons *row 2 *small atomic radius Iron *transition metal *4 electron shells/energy levels *atomic symbol: Fe Carbon *nonmetal *4 valence electrons *6 protons *readily forms covalent bonds Calcium *alkaline earth metal *2 valence electrons *4 electron shells/ energy levels Rubidium *alkali metal *highly reactive *relatively large atomic radius *5 electron shells/energy levels Sodium *alkali metal *3 electron shells/energy levels *atomic symbol: Na Helium *noble gas *has a full outer electron shell with 2 electrons *2 protons Sulfur *nonmetal *6 valence electrons *3 electron shells/energy levels Neon *noble gas *has a full outer electron shell with 8 electrons in it *row 2 *non-reactive Chlorine *halogen *3 electron shells/energy levels *7 valence electrons Beryllium *alkaline earth metal *row 2 *2 valence electrons Boron *metalloid *column 13 *3 valence electrons Hydrogen *halogen *column 1 *1 proton *small atomic radius Oxygen *pretty reactive nonmetal *2 electron shells/ energy levels *6 valence electrons Potassium *alkali metal *19 protons *atomic symbol: K Argon *noble gas *8 valence electrons *3 electron shells/energy levels Lithium *alkali metal *row 2 *1 valence electron Iodine *halogen *relatively large atomic radius *5 electron shells/energy levels Gold *transition metal *6 electron shells/energy levels *atomic symbol: Au Aluminum *transition metal *3 valence electrons *3 electron shells/ energy levels Arsenic *metalloid *5 valence electrons *4 electron shells/energy levels Silicon *metalloid *3 electron shells/energy levels *readily forms covalent bonds Magnesium *alkaline earth metal *12 protons *3 electron shells/energy levels Fluorine *halogen *highly reactive *row 2 *7 valence electrons Nitrogen *nonmetal *5 valence electrons *row 2 *small atomic radius Iron *transition metal *4 electron shells/energy levels *atomic symbol: Fe Carbon *nonmetal *4 valence electrons *6 protons *readily forms covalent bonds Calcium *alkaline earth metal *2 valence electrons *4 electron shells/ energy levels Rubidium *alkali metal *highly reactive *relatively large atomic radius *5 electron shells/energy levels Sodium *alkali metal *3 electron shells/energy levels *atomic symbol: Na
(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.
*noble gas
*has a full outer electron shell with 2 electrons
*2 protons
Helium
*nonmetal
*6 valence electrons
*3 electron shells/energy levels
Sulfur
*noble gas
*has a full outer electron shell with 8 electrons in it
*row 2
*non-reactive
Neon
*halogen
*3 electron shells/energy levels
*7 valence electrons
Chlorine
*alkaline earth metal
*row 2
*2 valence electrons
Beryllium
*metalloid
*column 13
*3 valence electrons
Boron
*halogen
*column 1
*1 proton
*small atomic radius
Hydrogen
*pretty reactive nonmetal
*2 electron shells/ energy levels
*6 valence electrons
Oxygen
*alkali metal
*19 protons
*atomic symbol: K
Potassium
*noble gas
*8 valence electrons
*3 electron shells/energy levels
Argon
*alkali metal
*row 2
*1 valence electron
Lithium
*halogen
*relatively large atomic radius
*5 electron shells/energy levels
Iodine
*transition metal
*6 electron shells/energy levels
*atomic symbol: Au
Gold
*transition metal
*3 valence electrons
*3 electron shells/ energy levels
Aluminum
*metalloid
*5 valence electrons
*4 electron shells/energy levels
Arsenic
*metalloid
*3 electron shells/energy levels
*readily forms covalent bonds
Silicon
*alkaline earth metal
*12 protons
*3 electron shells/energy levels
Magnesium
*halogen
*highly reactive
*row 2
*7 valence electrons
Fluorine
*nonmetal
*5 valence electrons
*row 2
*small atomic radius
Nitrogen
*transition metal
*4 electron shells/energy levels
*atomic symbol: Fe
Iron
*nonmetal
*4 valence electrons
*6 protons
*readily forms covalent bonds
Carbon
*alkaline earth metal
*2 valence electrons
*4 electron shells/ energy levels
Calcium
*alkali metal
*highly reactive
*relatively large atomic radius
*5 electron shells/energy levels
Rubidium
*alkali metal
*3 electron shells/energy levels
*atomic symbol: Na
Sodium