1. Ch. 6 Photosynthesis Stuff

2. The 6 Forms of Energy ATP Light energy Heat energy Electrical energy
Chemical energy
Mechanical energy
Nuclear energy
ATP
sugars

3. Energy Conversions Energy can not be created or destroyed.
Cellular Respiration Ch. 7
converts chemical energy (sugar) to a different form of chemical energy (ATP).
Photosynthesis Ch. 6
converts light energy to chemical energy (sugar).

4. The meaning of the word
Photosynthesis
“light”
“to make”

5. heterotrophs
autotrophs

6. How do plants make energy & food?
Plants use light energy to create chemical energy
Create Organic Compounds
glucose, sucrose, cellulose, starch, & more
sun
ATP
sugars

7. Photosynthesis: a Chemical Reaction
Light energy
C6H12O6 O2
CO2
H2O  +
carbon dioxide
water
glucose
oxygen
Reactants
Products
Making bonds requires energy
Light provides the energy!
Glucose stores the energy

8. What do plants need to grow?
The “factory” for making energy & sugars
chloroplast
Fuels
sunlight
carbon dioxide
water
The Helpers
enzymes
sun
CO2
ATP
enzymes
sugars
H2O

9. Photosynthesis Two Parts: Light reactions Calvin cycle
light-dependent reactions
Calvin cycle
light-independent reactions (Dark reactions)

10. So what does a plant need?
Bring In
light
CO2
H2O
Let Out O2
Move Around
sugars
leaves
shoot
6CO2
6H2O
C6H12O6
6O2  +
roots

11. Chloroplasts Leaf Leaves CO2 Chloroplasts in cell contain chlorophyll
sun
CO2
Leaves
Chloroplasts in cell
contain
chlorophyll
Chloroplast
make ENERGY & SUGAR

12. Plant structure
A typical mesophyll cell has chloroplasts, each about 2-4 microns by 4-7 microns long.
Each chloroplast has two membranes around a central aqueous space, the stroma.
In the stroma are membranous sacs, the thylakoids.
These have an internal aqueous space, the thylakoid lumen or thylakoid space.
Thylakoids may be stacked into columns called grana.

13. A Look at Light
The spectrum of color V I B G Y O R

14. Light Photosynthesis gets energy by absorbing wavelengths of light
chlorophyll
absorbs best in red & blue wavelengths & least in green

15. Light Reactions occurs in the thylakoid produces ATP produces NADPH
releases O2 as a waste product
H2O
sunlight
Energy Building
Reactions
NADPH
ATP O2

16. Calvin Cycle occurs in the stroma builds sugars uses ATP & NADPH
recycles ADP & NADP back
CO2
ADP
NADP
Sugar Building
Reactions
NADPH
ATP
sugars
C6H12O6

17. Putting it all together
CO2
H2O
C6H12O6 O2
(light
energy)  +
H2O
CO2
sunlight
ADP
NADP
Energy Building
Reactions
Sugar Building
Reactions
NADPH
ATP
sugars
C6H12O6 O2

18. How are they connected? Respiration  Photosynthesis
glucose + oxygen  carbon + water
dioxide
C6H12O6
6O2
6CO2
6H2O  +
Photosynthesis
6CO2
6H2O
C6H12O6
6O2  +
 glucose + oxygen
carbon
dioxide
+ water
So, in effect, photosynthesis is respiration run backwards powered by light.
Cellular Respiration
oxidize C6H12O6  CO2 & produce H2O
fall of electrons downhill to O2
exergonic
Photosynthesis
reduce CO2  C6H12O6 & produce O2
boost electrons uphill by splitting H2O
endergonic