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