1. KEY CONCEPT
The cells of all organisms need chemical energy to carry
out their life sustaining processes.

2. What do the cells need chemical energy for?
To move
To reproduce
To grow
To actively transport materials across the cell membrane
(Ex. Endocytosis, exocytosis, sodium-potassium pumps)
To carry out chemical reactions –Activation Energy
Ex. Photosynthesis, respiration , All metabolism

3. Energy is stored in Food Molecules
Chemical E is stored in the organic molecules
found in food.

4. Carbohydrates and lipid molecules are the most important energy containing molecules in foods we eat.

5. Page 1: Title: ATP (write down the following then transfer on to your booklet on page one.)
-Define ATP
-Define ADP
-How are ATP & ADP alike?
-How are they different?
Page 2: Title: ATP & ADP
-Draw, Label, & COLOR Figure 4.2 on page 101
Summarize what you have learned about ATP in your own words. What is ATP and what is its role in the cell? Explain ATP energy transfers and the ATP/ADP cycle.

7. 1. AUTOTROPHS – MAKE THEIR OWN FOOD MOLECULES USING ENERGY AND CARBON DIOXIDE (CO2) gas FROM THE ENVIRONMENT *

8. 2 Groups of Autotrophs
Photoautotrophs
Chemoautotrophs

9. Photoautotroph – use light E to make their food through Photosynthesis
CyanoBacteria Protists (Algae) Plants

10. Chemoautotrophs use chemical E to make their food through Chemosynthesis
Ex. Archaebacteria

11. Autotrophs make the organic compounds that serve as food for themselves and all other organisms on Earth

12. 2. Heterotrophs – Organisms that eat other organisms (or their products) to obtain energy and carbon compounds
Animals
Fungus
Some Protists
Most Bacteria
ANIMALS

13. Are We Autotrophs or Heterotrophs?

14. Autotroph or Heterotroph?

15. Law of Conservation of Energy Energy cannot be created or destroyed but it can be changed from one form to another

17. Energy Transformations that Support Life

18. Two processes are needed to convert the sun’s light energy into chemical energy the cell can use.
PHOTOSYNTHESIS
and
CELL RESPIRATION

19. In photosynthesis, sunlight E is transformed into chemical E stored in food molecules
Starch
Glucose

20. In cell respiration, the chemical E stored in food molecules is released and repackaged into high energy molecules called ATP the cells can use.

21. ATP What happens to the E released from food in cellular respiration?
It is used to make high energy molecules called
ATP

22. What is ATP?
ATP stands for the molecule
Adenosine Triphosphate

23. ATP is a high energy containing molecule used by all cells to carry out cellular functions..
Sodium-Potassium Pump
Muscle contraction

24. ATP – ADP ATP – Adenosine Triphosphate ADP – Adenosine Diphosphate

25. The ATP – ADP cycle ATP –High energy molecule ADP –Low energy molecule
phosphate removed

26. When ATP loses a phosphate molecule it gives off E and becomes ADP.
The E given off is used to power chemical reactions in the cell

27. When ADP gains E and a phosphate molecule, it becomes “recharged” to form ATP.
The E source to “recharge” ADP comes from the breakdown of food through respiration.

28. This process is called the
ATP – ADP Cycle

29. Removing a Phosphate - Release Energy “use the battery”
ATP Energy + P + ADP
Adding a Phosphate – Stores Energy “recharge battery”
ADP + Energy + P ATP

30. This is constantly occuring in every cell of your body, millions of times a minute!
The E given off is used to power every chemical reaction occuring in the cell

31. ATP to ADP
Recharging your body’s batteries