1. Chemical Energy and ATP

2. Chemical Energy and ATP
Energy in glucose & lipids is converted into ATP
Adenosine triphosphate
Energy for cellular work is stored in ATP bonds

3. Energy and ATP P P P Energy in glucose & lipids is converted into ATP
ADENOSINE TRIPHOSPHATE
ADENOSINE DIPHOSPHATE P
ENERGY P P
Energy in glucose & lipids is converted into ATP
Adenosine triphosphate
Energy for cellular work is stored in ATP bonds
Energy released when 3rd phosphate is broken off
3rd bond unstable…easily broken
ADP left over

4. Cellular Respiration creates ATP
Energy and ATP
ADENOSINE TRIPHOSPHATE
ADENOSINE DIPHOSPHATE P
ENERGY
Cellular Respiration creates ATP P P P
Energy in glucose & lipids is converted into ATP
Adenosine triphosphate
Energy for cellular work is stored in ATP bonds
Energy released when 3rd phosphate is broken off
3rd bond unstable…easily broken
ADP left over
ATP recreated with the addition of another phosphate group

5. Energy for cellular work
Energy and ATP P
Energy from food
Energy for cellular work
ADP-ATP Cycle P +
Energy in glucose & lipids is converted into ATP
Adenosine triphosphate
Energy for cellular work is stored in ATP bonds
Energy released when 3rd phosphate is broken off
3rd bond unstable…easily broken
ADP left over
ATP recreated with the addition of another phosphate group

6. Digestion Purpose: Break food into useable molecules to create ATP
High calorie foods will produce more ATP molecules
Digestion
Simple
sugar
Simple
sugar
Simple
sugar
ATP
ATP
ATP
ATP
ATP
ATP
ATP
Complex sugar
Simple
sugar
Simple
sugar
Simple
sugar

7. Purpose: Break food into useable molecules to create ATP
High calorie foods will produce more ATP molecules
Carbohydrates commonly used to make ATP
1 glucose = 36 ATP
Digestion
36 ATP

8. Purpose: Break food into useable molecules to create ATP
High calorie foods will produce more ATP molecules
Carbohydrates commonly used to make ATP
1 glucose = 36 ATP
Lipids
1 triglyceride = 146 ATP
Digestion
146 ATP

9. Digestion Purpose: Break food into useable molecules to create ATP
High calorie foods will produce more ATP molecules
Carbohydrates commonly used to make ATP
1 glucose = 36 ATP
Lipids
1 triglyceride = 146 ATP
Proteins less likely to be broken into ATP
Amino acids are needed for other processes

10. Various images of our sun from NASA satellites
Energy on Earth
Most life relies on sunlight directly or indirectly
Directly: Plants
Indirectly: Animals
Rabbits (herbivores) eat plants… Plants feed directly on sunlight
Plants obtain energy directly from the sun from photosynthesis
Wolves eat rabbits…
Rabbits eat plants…
Plants feed on sunlight
Various images of our sun from NASA satellites

11. Energy on Earth Most life relies on sunlight directly or indirectly
Directly: Plants
Indirectly: Animals
Exceptions: Chemotrophs
Hydrothermal vents release chemicals called sulfides
Unique bacteria feed on the sulfides to make ATP (chemosynthesis)
sulfides
sulfides

12. Review Where is the energy of ATP stored?
How is ADP and ATP different?
What’s the purpose of digestion?
Why are proteins less likely to be broken into ATP?
How much ATP is created by a triglyceride?
How much ATP is created by a molecule of glucose?
How is chemosynthesis and photosynthesis similar? Different?

13. Review Where is the energy of ATP stored?
In the bonds between phosphate molecules
How is ADP and ATP different?
ADP has one less phosphate molecule than ATP. ATP is a higher energy molecule.
What’s the purpose of digestion?
Break food into smaller useable molecules to create ATP
Why are proteins less likely to be broken into ATP?
Amino acids are needed for other processes
How much ATP is created by a triglyceride?
1 triglyceride = 146 ATP molecules
How much ATP is created by a molecule of glucose?
1 molecule of glucose = 36 ATP molecules
How is chemosynthesis and photosynthesis similar? Different?
Similar: Both are processes that capture energy and store it as sugars
Different: Chemosynthesis captures chemicals to make sugars
Different: Photosynthesis captures sunlight to make sugars