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Practical Review Breaking Bonds 6H2O + 6 CO2  C6H12O6 + 6 O2

Published byGodfrey Dawson Modified over 6 years ago

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Presentation on theme: "Practical Review Breaking Bonds 6H2O + 6 CO2  C6H12O6 + 6 O2"— Presentation transcript:

1 Practical Review Breaking Bonds 6H2O + 6 CO2  C6H12O6 + 6 O2
Green Wavelengths Blue Violet Wavelengths Chlorophyll a Photosynthesis Thylakoid, Granum and Stroma Light Dependent Rxn and Dark Rxn (Thylakoid) (Stroma) Reactants- H20, NADP+, ADP Products= O2, NADPH, ATP Reactants= CO2, ATP, NADPH Products= C6H12O6, ADP, NADP+

2 Practical Review Temp., Amt. of Water and Light Intensity
C6H12O6 + 6 O2  6H2O + 6 CO2 + ATP Reactants= Glucose, NAD+, ADP Products= Pyruvic Acid, ATP, NADH Location= Cytoplasm Anaerobic= without O2 Aerobic= with O2 Lactic Acid and Alcoholic fermentation Products= CO2, Alcohol, NAD+ Reactants= Pyruvic Acid, NADH Products= Lactic Acid and NAD+ Reactants= Pyruvic Acid, NADH

3 Practical Review NADH=8 FADH2=2 ATP=2 a. Gylcolysis b.CO2
a. O2, NADH, FADH2, ADP b. H2O, NAD+, FAD+, ATP NADH=3 ATP FADH2= 2 ATP Glycolysis= 2 ATP Krebs= 2 ATP ETC= (10 NADH and 2 FADH2)= 34 ATP TOTAL= 38 ATP

4 NADP+ NAD+ FAD+ NADPH NADH FADH2 ATP ADP CO2 H2O C6H12O6 O2
Reactants Products Location Light Rxn Light Dep. - Dark Rxn aka: - Glycolysis Krebs aka: ETC Lactic Acid Ferm. Alcoholic Ferm. Vocab for Chart: NADP+ NAD+ FAD+ NADPH NADH FADH2 ATP ADP CO2 H2O C6H12O6 O2 Pyruvic Acid Lactic Acid Alcohol

5 Reactants Products Location Light Rxn Light Dep. - Dark Rxn aka: - Glycolysis Krebs aka: ETC Lactic Acid Ferm. Alcoholic Ferm.

6 Reactants Products Location Light Rxn Light Dep. H20 ADP NADP+ ATP NADPH O2 Thylakoid Membrane Dark Rxn Calvin Cycle Light Indep. CO2 C6H12O6!!!!! Stroma Glycolysis C6H12O6 NAD+ Pyruvic Acid (2) NADH (2) ATP (2) Cytoplasm Krebs Citric Acid Cycle FAD FADH2 (2) NADH (8) Mitochondrial Matrix ETC NADH FADH2 ATP!!!!! H2O Inner Membrane Mitochondria Lactic Acid Ferm. Pyruvic Acid Lactic Acid Alcoholic Ferm. Co2 Alcohol

7 2. 3. 1.

8 B Cellular Energy 1) What does Glucose break down into? A) ATP
B) 2 Pyruvic Acids C) NADH D) FADH2 B

9 Cellular Energy 2) What MUST be present for Glucose to break down into 2 pyruvates? A) 2 NAD+ B) 2 FADH2 C) 2 CO2 A

10 C Cellular Energy 3) Which process produces the most amount of ATP?
A) Glycolysis B) Kreb Cycle C) ETC (Electron Transport Chain) D) Citric Acids Cycle C

11 Cellular Energy 4) 1 molecule of glucose must go through the Kreb cycle how many times? A) 1 B) 2 C) 3 D) 4 B

12 A Cellular Energy 5) What is a by-product of the Kreb Cycle? A) CO2
B) Water C) Pyruvic Acid D) 4 ATP A

13 Cellular Energy 6) How many ATPs are created for 1 molecule of glucose through the Kreb Cycle? A) 1 B) 2 C) 4 D) None B

14 Cellular Energy 7) Which of the following is correct when determining the amount of ATP produced by the following electron carriers? NADH=___ ATP FADH2=___ ATP A) 1 and 2 B) 3 and 3 C) 3 and 2 D) 3 and 1 C

15 Cellular Energy 8) What is NOT a product of the ETC (electron transport chain)? A) ATP B) H2O C) CO2 C

16 Cellular Energy 9) What is the final electron acceptor of the Electron transport chain which creates H2O? A) Oxygen B) CO2 C) Hydrogen D) Carbon A

17 B Cellular Energy 10) How many ATP are created during Glycolysis? A) 1

18 Cellular Energy 1) Which of the following is a reactant of the Calvin Cycle? A) NAD+ B) ADP C) Glucose D) CO2 D

19 Cellular Energy 2) Which of the following is NOT a product of the light dependent reaction? A) O2 B) Water C) ATP D) NADPH B

20 Cellular Energy 3) Which of the following is the location of the Calvin Cycle? A) Stroma B) Cytoplasm C) Mitochondria D) Thylakoid A

21 D Cellular Energy 4) Where does Glycolysis occur
A) Mitochondrial Matrix B) Inner membrane of the mitochondria C) Chloroplast D) Cytoplasm D

22 Cellular Energy 5) Which of the following is NOT a product of glycolysis? A) 2 Pyruvic Acids B) 2 NADH C) 2 FADH2 D) 2 ATP C

23 Cellular Energy 6) How many molecules of pyruvic acid are there in 1 molecule of glucose A) 2 B) 1 C) 4 D) None A

24 A Cellular Energy 7) What is a by-product of the Kreb Cycle? A) CO2
B) Water C) Pyruvic Acid D) 4 ATP A

25 Cellular Energy 8) How many ATPs are created for 1 molecule of glucose through the Kreb Cycle? A) 1 B) 2 C) 4 D) None B

26 Cellular Energy 9) Which of the following is correct when determining the amount of ATP produced by the following electron carriers? NADH=___ ATP FADH2=___ ATP A) 2 and 3 B) 3 and 2 C) 2 and 1 D) 1 and 2 B

27 Cellular Energy 10) What is the final electron acceptor of the Electron transport chain? A) Hydrogen B) CO2 C) Oxygen D) Carbon C

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