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DO NOW: What do wood, a marshmallow and gasoline all have in common? They all have stored chemical energy that can be used for energy!!!! CHAPTER 7.1 SUNLIGHT POWERS LIFE OBTAINING FOOD • All organisms need food for energy and building materials AUTOTROPHS • An organism that makes its own food • AKA (also known as) producers • Photosynthesis- uses the sun’s energy to convert water and carbon dioxide into sugars and oxygen HETEROTROPHS • Organisms that cannot make their own food • AKA consumers • Get food from producers or other consumers CELLULAR RESPIRATION • The process that uses oxygen to make ATP EQUATIONS CLASS WORK/exit slip • 1. Define autotroph and heterotroph, and give an example of each. 2. Explain the role of food (glucose) in both photosynthesis and cellular respiration. 3. Explain how life on Earth depends on the sun. CHAPTER 7.2 FOOD STORES CHEMICAL ENERGY INTRODUCTION TO ENERGY • Energy- the ability to perform work • Energy cannot be created or destroyed • Two main types – Kinetic – Potential KINETIC ENERGY • The energy of motion • Thermal Energyrandom kinetic energy of molecular motion POTENTIAL ENERGY • Stored energy due to an objects position or arrangement • Chemical Energypotential energy of food CALORIES: UNITS OF ENERGY • Calorie- the amount of energy required to raise the temperature of 1 gram of water by 1 degree Celsius • Men: BMR = 66 + (13.7 x W) + (5 x H) (6.8 x Age) = Daily calories required • Women: BMR = 665 + (9.6 x W) + (1.8 x H) - (4.7 x Age) = Daily calories needs • Where: • W = weight in Kgs (1 pound = 0.45359237 kilograms) • H = Height in cms ( 1 foot = 12 inches, 1 inch = 2.54 cms) • Age = Years • Sedentary - none or very little exercise = BMR X 1.2 • Light activity for average of 2 days/week = BMR X 1.375 • Moderate activity level exercising 4 days/week = BMR X 1.5 • High activity levels exercise & sports more than 6 days/week = BMR X 1.7 • Higher activity levels = up to 2 x BMR CLASS WORK • 1. Identify the types of energy you have at the top of a staircase and as you go down the stairs. 2. Explain how your body uses chemical energy during exercise. 3. If a food has 10 kcal of energy, how much could it increase the temperature of 100 g of water? CHAPTER 7.3 and 7.4 ATP PROVIDES ENERGY FOR CELLULAR WORK ELECTRONS “FALL” FROM FOOD TO OXYGEN DURING CELLULAR RESPIRATION ATP • Adenosine tri-phosphate • Energy is held between the phosphate groups • In the Figure, an ATP molecule contains potential energy, much like a compressed spring. When a phosphate group is pulled away during a chemical reaction, energy is released. CELLULAR WORK • Mechanical – Contractions of a muscle • Transport – Pumping solutes across a membrane • Chemical – Building large materials THE ATP CYCLE • ATP releases energy to become ADP • ADP gains energy to become ATP CELLULAR RESPIRATION and BREATHING • Aerobic- a process that requires the use of oxygen • Breathing is the process of the exchange of gases • Cellular respiration is the process that breaks down sugar to make energy ELECTRON TRANSPORT CHAIN • A series of transfers where electron carriers pass electrons on to other carriers Class Work 1. 1. In what way is ATP like a compressed spring? 2. List three main types of cellular work. 3. What is the source of energy for regenerating ATP from ADP? 2. 1. Compare and contrast breathing and cellular respiration. 2. List the reactants and products in cellular respiration. 3. What is meant by the "falling" of electrons to oxygen? How does this process release energy? 4. How does an electron transport chain result in the gradual release of energy stored in glucose? Chapter 7.5 CELLULAR RESPIRATION CONVERTS ENERGY IN FOOD TO ENERGY IN ATP STRUCTURE OF MITOCHONDRIA • Two membranes • Highly folded inner membrane – Matrix (liquid) • Outer membrane CELLULAR RESPIRATION • A process ALL cells go through • Metabolism- all the chemical processes of a cell • Three Stages – Glycolysis – Krebs Cycle – Electron Transport Chain/ATP Synthase GLYCOLYSIS • • • • Splitting of sugar Cytoplasm Starts with glucose and 2 ATP Ends with 2 pyruvic acid and 4 ATP KREBS CYCLE • Breaking down of pyruvic acid into carbon dioxide • Mitochondria ETC/ ATP SYNTHASE • Mitochondria • ATP Synthase- an enzyme in the cells mitochondria, uses H+ ions to convert ADP to ATP TOTAL ATP PRODUCED SUMMARY OF CELLULAR RESPIRATION CELLULAR RESPIRATION SUMMARY QUESTION 7.5 • 1. How is the mitochondrion's structure suited to its function? 2. Identify the three stages of cellular respiration, where in the cell each takes place, and how many ATP molecules it produces. 3. Summarize the use and production of ATP in one cycle of cellular respiration CHAPTER 7.6 SOME CELLS CAN HARVEST ENERGY WITHOUT OXYGEN FERMENTATION • Anaerobic- an environment without oxygen • Fermentation- a process that makes ATP without using oxygen • Makes ATP from glycolysis • Two types – Lactic Acid – Alcoholic LACTIC ACID FERMENTATION • Human muscle cells, fungi, and bacteria • Waste product is lactic acid LACTIC ACID FERMENTATION LACTIC ACID FERMENTATION LACTIC ACID FERMENTATION ALCOHOLIC FERMENTATION • Yeast and other microorganisms • Waste products are carbon dioxide (CO2) and ethyl alcohol ALCOHOLIC FERMENTATION ALCOHOLIC FERMENTATION CONCEPT CHECK 7.6 • 1) How is fermentation different from cellular respiration? • 2) Describe one example of how fermentation in microorganisms produces human food. • 3) What is the waste product of fermentation in muscle cells? What does it cause?