Autotrophs Oxygen To Make Glucose Grana ATP Stroma Heterotrophs Swell Sugar Hypertonic Glucose Semipermeable Plants Cuticle Stomata Chloroplast Photosynthesis Lose Water & Shrink Cellular Respiration Thylakoid Side B Producing Glucose Capture & Transfer Energy Out of the Cell Animal & Plant Cells Mitochondria D Calvin Cycle Water Osmosis Hypotonic Carbon Dioxide 2 Sun Glucose & Oxygen Chlorophyll Opposites High to Low Roots Carbon Dioxide & Water A-- >B Flow in and out Equally 1 Cell Membrane Move INTO the cell Gas Exchange Autotrophs Oxygen To Make Glucose Grana ATP Stroma Heterotrophs Swell Sugar Hypertonic Glucose Semipermeable Plants Cuticle Stomata Chloroplast Photosynthesis Lose Water & Shrink Cellular Respiration Thylakoid Side B Producing Glucose Capture & Transfer Energy Out of the Cell Animal & Plant Cells Mitochondria D Calvin Cycle Water Osmosis Hypotonic Carbon Dioxide 2 Sun Glucose & Oxygen Chlorophyll Opposites High to Low Roots Carbon Dioxide & Water A-- >B Flow in and out Equally 1 Cell Membrane Move INTO the cell Gas Exchange
(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.
Autotrophs
Oxygen
To Make Glucose
Grana
ATP
Stroma
Heterotrophs
Swell
Sugar
Hypertonic
Glucose
Semipermeable
Plants
Cuticle
Stomata
Chloroplast
Photosynthesis
Lose Water & Shrink
Cellular Respiration
Thylakoid
Side B
Producing Glucose
Capture & Transfer Energy
Out of the Cell
Animal & Plant Cells
Mitochondria
D
Calvin Cycle
Water
Osmosis
Hypotonic
Carbon Dioxide
2
Sun
Glucose & Oxygen
Chlorophyll
Opposites
High to Low
Roots
Carbon Dioxide & Water
A-->B
Flow in and out Equally
1
Cell Membrane
Move INTO the cell
Gas Exchange