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