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Warm-up 1. Where do the light-dependent reactions take place? 2. Where do free e - s first gain E from the sun during the light-dependent reactions? 3.

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Presentation on theme: "Warm-up 1. Where do the light-dependent reactions take place? 2. Where do free e - s first gain E from the sun during the light-dependent reactions? 3."— Presentation transcript:

1 Warm-up 1. Where do the light-dependent reactions take place? 2. Where do free e - s first gain E from the sun during the light-dependent reactions? 3. Where do the free e - s come from? 4. How do the free electrons use their E going from psII to psI? 5. What molecule do the free e - s become a part of? 6. What molecule is made from H + going down its concentration gradient? a. What is the name of the enzyme they travel through?

2 The Calvin Cycle Happens in the stroma, does not require light, but does require the products from the light- dependent reactions Converts high-E molecules (ATP & NADPH) to sugars –This is where CO 2 comes in

3 Summary of the Calvin Cycle 1. 6 CO 2 molecules enter from the atmosphere & combine with 6 5-C molecules 6C + 6x5C = 36C 2. They are converted into 12 3-C molecules 12 x 3C = 36C 3. The 3-C molecules convert to higher E forms by taking E from ATP (  ADP) & NADPH (  NADP + ) 4. 2 of the 3-C molecules convert to 6-C sugars (glucose) 5. The other 10 3-C molecules convert back into 5-C molecules to be used in step 1 10 x 3-C = 30C 6 x 5-C = 30C

4 Equation of Photosynthesis Light-dependent Reactions ADP + NADP + + energy + H 2 O  ATP + NADPH + O 2 Calvin Cycle ATP + NADPH + CO 2  ADP + NADP + + C 6 H 12 O 6 Together: ADP + NADP + + energy + H 2 O + ATP + NADPH + CO 2  ATP + NADPH + O 2 + ADP + NADP + + C 6 H 12 O 6 Overall: (6) CO 2 + (6) H 2 O + energy  C 6 H 12 O 6 + (6) O 2 Carbon + water + light  sugar + oxygen dioxide

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