1 / 28

Photosynthesis vs. Respiration

Photosynthesis vs. Respiration. Free Energy – . Enthalpy (heat of reaction) is the amount of energy released or absorbed during a chemical reaction Symbol is Δ H Think of it as energy needed Entropy is a measure of randomness, tendency toward disorder Symbol is Δ S

lovie
Download Presentation

Photosynthesis vs. Respiration

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Photosynthesis vs. Respiration

  2. Free Energy – • Enthalpy(heat of reaction) is the amount of energy released or absorbed during a chemical reaction • Symbol is ΔH • Think of it as energy needed • Entropy is a measure of randomness, tendency toward disorder • Symbol is ΔS • More disorder = more entropy • If reaction leads to more disorder, the entropy change (ΔS) is positive, if it becomes more ordered, ΔS is negative • Example: melting ice, condensing water, cleaning your room (+,-,-) • Temperature – T measured in K (273 + ºC) • Free Energy – spontaneity of a reaction • Spontaneous - is negative • Not spontaneous - is positive. Would be spontaneous if reversed.

  3. Things in Common • Both photosynthesis and respiration make ATP. • Both involve, CO2, oxygen, sugar (C6H12O6), and water (H2O) • Almost all cells go through respiration

  4. phosphate removed • Energy is released when a phosphate group is removed. • ATP transfers energy from the breakdown of food molecules to cell functions. • ADP is changed into ATP when a phosphate group is added.

  5. adenosine triphosphate tri=3 adenosine diphosphate di=2 Organisms break down carbon-based molecules to produce ATP. • Carbohydrates are the molecules most commonly broken down to make ATP. • not stored in large amounts • up to 36 ATP from one glucose molecule

  6. 80 percent of the energy in your body • about 146 ATP from a triglyceride • Fats store the most energy. • Proteins are least likely to be broken down to make ATP. • amino acids not usually needed for energy • about the same amount of energy as a carbohydrate

  7. take place in thylakoids • water and sunlight are needed • chlorophyll absorbs energy • energy is transferred along thylakoid membrane then to light-independent reactions • oxygen is released • The light-dependent reactions capture energy from sunlight.

  8. take place in stroma (fluid outside the thylakoids) • needs carbon dioxide from atmosphere • use energy to build a sugar in a cycle of chemical reactions • The light-independent reactions make sugars.

  9. chlorophyll absorbs energy from sunlight • energized electrons enter electron transport chain • water molecules are split • oxygen is released as waste • hydrogen ions are transported across thylakoid membrane • Photosystem II captures and transfers energy.

  10. chlorophyll absorbs energy from sunlight • energized electrons are used to make NADPH • NADPH is transferred to light-independent reactions • Photosystem I captures energy and produces energy-carrying molecules.

  11. Summary of Light Dependent Reactions • Energy is captured from the sun. • Energy goes into electrons into the electron transport chain. • Water is broken down • H+ ions are transported and form NADPH • Flow of H+ ions through ATP synthase makes ATP • Electron Transport

  12. Summary of Light Independent Reactions (Calvin Cycle) • CO2 enters cycle • ATP and NADPH from light-dependent transfer energy • 1 3-carbon molecule made for every 3 CO2 • 2 3-carbon molecules bonded to make sugar • Products – 6-carbon sugar, NADP+, and ADP

  13. carbon dioxide molecules enter the Calvin cycle (this is what has sugar as an end product • energy is added and carbon molecules are rearranged • a high-energy three-carbon molecule leaves the cycle • A molecule of glucose is formed as it stores some of the energy captured from sunlight.

  14. A molecule of glucose is formed as it stores some of the energy captured from sunlight. • remaining molecules stay in the cycle • two three-carbon molecules bond to form a sugar

  15. mitochondrion animal cell Cellular respiration makes ATP by breaking down sugars. • Cellular respiration is aerobic, or requires oxygen. • Aerobic stages take place in mitochondria.

  16. anaerobic process (does not require oxygen) • takes place in cytoplasm • splits glucose into two three-carbon molecules • produces two ATP molecules • Glycolysis must take place first.

  17. 1 ATP mitochondrion matrix (area enclosed by inner membrane) and 6CO 2 energy 2 3 energy from glycolysis ATP inner membrane and and 6H O 6O 2 2 4 Cellular respiration is like a mirror image of photosynthesis. Krebs Cycle • The Krebs cycle transfers energy to an electron transport chain. • takes place inmitochondrial matrix • breaks down three-carbonmolecules from glycolysis • makes a small amount of ATP • releases carbon dioxide • transfers energy-carrying molecules

  18. 1 ATP mitochondrion matrix (area enclosed by inner membrane) and 6CO 2 energy 2 Electron Transport 3 energy from glycolysis ATP inner membrane and and 6H O 6O 2 2 4 • The electron transport chain produces a large amount of ATP. • takes place in inner membrane • energy transferred to electron transport chain • oxygen enters process • ATP produced • water released as awaste product

  19. The Krebs cycle is the first main part of cellular respiration. • Pyruvate is broken down before the Krebs cycle. • carbon dioxide released • NADH produced • coenzyme A (CoA) bonds to two-carbon molecule

  20. The Krebs cycle produces energy-carrying molecules.

  21. The electron transport chain is the second main part of cellular respiration. • The electron transport chain uses NADH and FADH2 to make ATP. • high-energy electrons enter electron transport chain • energy is used to transport hydrogen ions across the inner membrane • hydrogen ionsflow through achannel in themembrane

  22. The electron transport chain is the second main part of cellular respiration. • The electron transport chain uses NADH and FADH2 to make ATP. • The breakdown of one glucose molecule produces up to36 molecules of ATP. (2 from glycolysis, 2 from Kreb, 32 from ETC) • ATP synthase produces ATP • oxygen picks up electrons and hydrogen ions • water is released as a waste product

  23. ATP Products of Cellular Respiration including glycolysis • Glycolysis – uses 2 ATP and make 4 ATP. Net gain of 2 ATP • Kreb Cycle – 2 ATP, 8 NADH, 2 FADH2 • Electron Transport Chain – 32ATP • Net gain – 36 ATP for every glucose molecule.

  24. Comparison of Photosynthesis & Cellular Respiration

  25. Fermentation allows glycolysis to continue when oxygen is unavailable. • Fermentation is an anaerobic process. • occurs when oxygen is not available for cellular respiration • does not produce ATP

  26. NAD+ is recycled to glycolysis • Lactic acid fermentation occurs in muscle cells. • glycolysis splits glucose into two pyruvate molecules • pyruvate and NADH enter fermentation • energy from NADH converts pyruvate into lactic acid • NADH is changed back into NAD+ • Fermentation allows glycolysis to continue making ATP when oxygen is unavailable.

  27. yogurt • cheese • Fermentation is used in food production. • bread

  28. Project • In teams of 2, students will create a visual representation (e.g., poster or PowerPoint) to explain the interdependent relationships of cellular respiration and photosynthesis, and how the processes of cellular respiration and photosynthesis affect a runner in a marathon race. • Students should use few words and focus on using graphics to represent the cyclic processes. Visual representations will be peer and teacher reviewed.

More Related