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