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