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Do Now!! What is energy? What is the ultimate source of energy on the earth? Where do we get our energy from? What is energy? What is the ultimate source of energy on the earth? Where do we get our energy from?
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Objectives To define energy. To list the different types of energy. To explain the laws of thermodynamics. To begin discussing photosynthesis and cellular respiration To define energy. To list the different types of energy. To explain the laws of thermodynamics. To begin discussing photosynthesis and cellular respiration
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Section 8.1: How organisms obtain energy!!
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So what is energy?? Energy- The ability to do work!! Thermodynamics- is the study of the flow and transformation of energy in the universe. Energy- The ability to do work!! Thermodynamics- is the study of the flow and transformation of energy in the universe.
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3 Types of Energy Potential Kinetic Chemical
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3 Types of Energy Potential - stored energy, or energy of position Ex: top of the rollercoaster! Kinetic - motion Ex: moving down from top of rollercoaster! Chemical - energy found in bonds (released when bonds are broken, stored when bonds are formed) Ex: lighting a match (released or stored?) Potential - stored energy, or energy of position Ex: top of the rollercoaster! Kinetic - motion Ex: moving down from top of rollercoaster! Chemical - energy found in bonds (released when bonds are broken, stored when bonds are formed) Ex: lighting a match (released or stored?)
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Laws of Thermodynamics First law —energy can be converted from one form to another, but it cannot be created nor destroyed. Ex. Stored energy to chemical energy to mechanical energy First law —energy can be converted from one form to another, but it cannot be created nor destroyed. Ex. Stored energy to chemical energy to mechanical energy
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Do Now!! (P. 6) What is the first law of thermodynamics? What are the three types of energy? How can plants harness energy from the sun? What is the first law of thermodynamics? What are the three types of energy? How can plants harness energy from the sun?
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Objectives To discuss the second law of thermodynamics To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To read and analyze the article “Will we ever photosynthesize like plants?” To discuss the second law of thermodynamics To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To read and analyze the article “Will we ever photosynthesize like plants?”
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Laws of Thermodynamics Second law —energy cannot be converted without the loss of usable energy. Ex. Energy Lost as Heat Second law —energy cannot be converted without the loss of usable energy. Ex. Energy Lost as Heat
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Second Law of Thermodynamics Entropy Measure of unusable energy in a system. Ex: thermal energy Entropy always increases. Entropy Measure of unusable energy in a system. Ex: thermal energy Entropy always increases.
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Do Now!! Please take out your homework! What are the 2 laws of thermodynamics? What is entropy? What is metabolism? Please take out your homework! What are the 2 laws of thermodynamics? What is entropy? What is metabolism?
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Objectives To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To be able to list the inputs and outputs of photosynthesis. To be able to identify the structures of a chloroplast. (“Quest” on photosynthesis next week!) To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To be able to list the inputs and outputs of photosynthesis. To be able to identify the structures of a chloroplast. (“Quest” on photosynthesis next week!)
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Review of Reactions… Endothermic - uses energy to make bonds H + H H 2 Energy put in Exothermic - breaks bonds and releases energy H 2 H + H Energy Released Endothermic - uses energy to make bonds H + H H 2 Energy put in Exothermic - breaks bonds and releases energy H 2 H + H Energy Released
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Autotrophs and Heterotrophs o Autotrophs: make their own energy Ex: o Heterotrophs: have to eat to obtain energy Ex: o Autotrophs: make their own energy Ex: o Heterotrophs: have to eat to obtain energy Ex:
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Do Now!! (P.2) What is the first law of thermodynamics? The second law? What is entropy? What is the first law of thermodynamics? The second law? What is entropy?
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Objectives To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To read and analyze the article “Will we ever photosynthesize like plants?” To define metabolism and differentiate between anabolic and catabolic pathways. To define ATP To read and analyze the article “Will we ever photosynthesize like plants?”
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Metabolism Metabolism: All chemical reactions in a cell Two types of Metabolic Pathways: Catabolic : Release energy by breaking down larger molecules Anabolic : Use energy to build larger molecules from smaller ones Metabolism: All chemical reactions in a cell Two types of Metabolic Pathways: Catabolic : Release energy by breaking down larger molecules Anabolic : Use energy to build larger molecules from smaller ones
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Think- Pair - Share Of the following examples, list which ones are catabolic and anabolic 1. Amino acids becoming polypeptide chain 2. Glucose becoming glycogen 3. Your body breaking down food 4. Lifting weights and building up muscle mass Of the following examples, list which ones are catabolic and anabolic 1. Amino acids becoming polypeptide chain 2. Glucose becoming glycogen 3. Your body breaking down food 4. Lifting weights and building up muscle mass
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Adenosine Tri Phosphate (ATP) ATP : most important biological molecule that provides chemical energy Structure: Adenine base, ribose sugar, and 3 phosphate groups Function: Releases energy when bonds are broken ATP : most important biological molecule that provides chemical energy Structure: Adenine base, ribose sugar, and 3 phosphate groups Function: Releases energy when bonds are broken
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Processes involving Energy… Cellular respiration —organic molecules are broken down to release energy for use by the cell -type of process: Photosynthesis —light energy from the Sun is converted to chemical energy for use by the cell -type of process: Cellular respiration —organic molecules are broken down to release energy for use by the cell -type of process: Photosynthesis —light energy from the Sun is converted to chemical energy for use by the cell -type of process:
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Next up… Photosynthesis!!
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