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Cellular Respiration and Photosynthesis: An In-depth Analysis, Slides of Biology

A detailed explanation of cellular respiration and photosynthesis, including the roles of key components such as the cytoplasm, mitochondria, and electron transport chain. It also covers the process of glycolysis, the Krebs cycle, and the light and dark reactions of photosynthesis. Additionally, it discusses the differences between aerobic and anaerobic respiration and the importance of oxygen and carbon dioxide in these processes.

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2021/2022

Uploaded on 08/05/2022

dirk88
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Download Cellular Respiration and Photosynthesis: An In-depth Analysis and more Slides Biology in PDF only on Docsity! BIOLOGY 1 WORKSHEET II - Selected Answers (PHOTOSYNTHESIS, CELLULAR RESPIRATION, PROTEIN SYNTHESIS) 3. Write the equation for cellular respiration. 4. Draw a mitochondrion and label all structures. Indicate where the Krebs cycle and the electron transport chain occur. 5. Discuss the role of the following in cellular respiration: a. Cytoplasm The cytoplasm is where glycolysis takes place. Glycolysis is a reaction where six carbon glucose is split into two pyruvic acid molecules. The energy created by spliting glucose us used to make two ATP’s and two NAHPH’s. The process that occurs in the cytoplasm does not require oxygen, thus it is anaerobic. b. Cristae of the mitochondria The cristae is the inner membrane of the mitochondria. The electron transport chain takes place in the cristae. This is where most of the ATP is made in cellular respiration. Three ATP’s are generated for every NADPH that passes its electrons down the electron transport chain. Two ATP’s are generated for every FADH that passes its electrons down the chain. The final electron acceptor is oxygen. When oxygen accepts two electrons the waste product water is produced. c. Matrix of the mitochondria The matrix is where both the transition reaction and the Krebs Citric Acid Cycle take place. Pyruvic acid, which was produced in glycolysis, moves from the cytoplasm into the fluid matrix of the mitochondria and enters the transition reaction. In the transition reaction, a carbon is removed from three carbon pyruvic acid converting it to a two carbon compound called acetyl-Coenzyme A . The cabon that was removed from pyruvic acid is eliminated from the cell as carbon dioxide (One of the waste products of cellular respiration). Once the two carbon compound acetyl- Coenzyme A is created it enter the Kreb’s Citric Acid cycle. d. Glycolysis The cytoplasm is where glycolysis takes place. Thus six carbon glucose is split into two pyruvic acid molecules. The energy created by spliting glucose us used to make two ATP’s and two NAHPH’s. The process that occurs in the cytoplasm does not require oxygen, thus it is anaerobic 2 8. Compare and contrast the differences in cellular respiration when oxygen is readily available and when oxygen becomes limited in supply. Include differences in ATP production, electron transport, and waste products. Also describe the locations where the chemical pathways occur. 2 2 O Available (Normal Pathway) O limited (Anaerobic pathway) 9. List at least five physiologic effects of an aerobic conditioning program? You needed to be in class the day I talked about this to answer this question!!! Remember - You will get better grades if you come to class! 10. Cardiac Output = Heart Rate X Stroke Volume The number of times The volume pumped per beat the heart beats in one minute C.O. = 70 beats/minute X 70 ml blood/beat = 4900 ml/minute (About 5 liters/minute) Thus at rest, your entire volume of blood is pumped by the heart in one minute!!! 11. List the equation for photosynthesis:__________________________________________ 12. Define: a. Transpiration______________________________________________________ b. Stomata__________________________________________________________ c. Stroma___________________________________________________________ d. Thylakoid________________________________________________________ e. Granum_________________________________________________________ 13. Describe the difference between oxidation and reduction. 5 14. The purpose of photosynthesis is to make glucose. Glucose contains six carbons. Where does the carbon come from to make glucose? 15. Draw a closed stomate and an open stomate. Label the guard cells. Indicate when each 3stomate is open and closed in a C plant 16. Draw a chloroplast and label all structures. Indicate where the light and dark reactions occur. 17. What is produced in the: a. Light reactions: ____________________ and _________________ b. Dark reactions: ____________________ and _________________ 18. Discuss the role of the following in photosynthesis: a. Stomata The carbon in carbon dioxide is used to make glucose which has 6 carbons in it. Thus carbon dioxide is required for photosynthesis. Carbon dioxide can enter a leaf when the stomata are open. A stomate is pore in a leaf surrounded by two guard cells. When the stomata are open and carbon dioxide enters, water is lost. The evaporative water loss by a plant through open stomata is called transpiration. b. Light Light is required for photosynthesis. To form the chemical bonds between the 6 carbons in a glucose molecule, energy is required. Light energy is the energy that drives the process. The light reaction convert light energy to ATP and NADPH (High potential energy molecules) ATP and NADPH are used to fuel to creation of glucose in the dark reactions. c. Chlorophyll Chlorophyll is the primary photosynthetic pigment. Chlorophyll absorbs light energy. (It does not absorb green light - it reflects it. Thus chlorophyll appears green. d. Carotenoids These are accessory pigments in the leaf. They are yellow, orange, and red pigments. They absorb the green light that chlorophyll cannot, thus they make more colors of light available for photosynthesis. 6 e. Stroma This is the fluid in the chloroplast. The stroma is where the dark reactions occur. Six carbon dioxides and converted to glucose in the stroma, thus it is where glucose is made. f. Thylakoid (Inner membrane of chloroplast) This is where the light reactions occur. Thus chlorophyll is found on the thylakoid membrane. The thylakoid is where light energy is absorbed and converted to chemical energy in the form of ATP and NADPH. g. Water Water is the electron source for the formation of NADPH. When two electrons are removed from water, the waste product oxygen is produced. h. Carbon dioxide Carbon is removed from carbon dioxide to make glucose. It takes 6 carbon dioxides to make one 6 carbon glucose in photosyntheis. 2I. ATP and NADPH (NADPH ) These molecules are made in the light reactions. They are used to fuel the dark reactions. 19. What is transpiration? How would you expect temperature, wind velocity, light intensity, and relative humidity to influence transpiration rates? a. Temperature: b. Wind velocity c. Light intensity d. Relative humidity RH is the amount of water in air. When it is raining the relative humidity is 100%. The higher the relative humidity the lower the transpiration rate. When the air is dry (like in the desert in the summer), the relative humidity is low, and the transpiration rate is high. 7