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MIAMI-DADE COUNTY PUBLIC SCHOOLS Student BYOD Resource Page PHYSICS I Course Code: 200338001 TOPIC VII: Energy Pacing Date(s) Traditional 14 days Block ESSENTIAL CONTENT A. Review Kinetic-Molecular Theory 1. Review States of Matter from a molecular perspective B. Develop models to describe the 1st Law of Thermodynamics 1. Energy storage modes 2. Energy transfer mechanisms 3. System schema C. Apply the Law of Conservation of Energy 1. Hooke’s Law 2. Elastic Potential Energy 3. Gravitational Potential Energy 4. Conservative vs. Non-Conservative Forces D. Discuss the 2nd Law of Thermodynamics 1. Analyze Heat and Heat transfer E. Explore the connection between Work and Energy 1. Review KE and W 2. Work-Energy Theorem 3. Power Division of Academics – Department of Science Second Nine Weeks OBJECTIVES Differentiate among the four states of matter. Understand that energy is energy regardless of storage mode Distinguish between energy transfer and storage Develop graphical representations (system schema) to describe energy Utilize and interpret diagrams to develop algebraic expressions for the 1st Law of Thermodynamics and Law of Conservation of Energy Define and describe working as an energy transfer mechanism. Describe how forces acting on a system result in changes in energy. Discuss the work-energy theorem. Explore the Law of Conservation of Energy by differentiating among open, closed, and isolated systems Describe heat as the energy transferred by convection, conduction, and radiation, and explain the connection of heat to change in temperature or states of matter. Understand that average power is the rate at which work is done Compare and contrast work and power qualitatively and quantitatively 7 days 12-07-15 to 01-07-16 12-07-15 to 01-07-16 INSTRUCTIONAL TOOLS Textbook: Ch. 9, Ch. 17, Ch. 18, Ch. 19, Ch. 20, Ch. 21, Ch. 22, Ch. 23, Ch. 24 Vocabulary: Work, power, watt, potential energy, kinetic energy, mechanical energy Technology: 1. Lectures online 2. http://www.physicssource.org (search your topic) 3. http://hyperphysics.phy-astr.gsu.edu 4. http://www.physicsclassroom.com/Physics-Interactives 5. http://www.pbslearningmedia.org/ (search your topic) 6. http://www.learner.org/courses/physics/unit/text.html?un it=2&secNum=1 7. Khan Academy 8. Progressive Science Initiative (PSI) a. Work and Energy Page 1 of 5 MIAMI-DADE COUNTY PUBLIC SCHOOLS Student BYOD Resource Page PHYSICS I Course Code: 200338001 SC.912.P.10.1 SC.912.P.10.2 SC.912.P.10.3 SC.912.P.10.4 SC.912.P.10.5 Energy Conversion In A System SC.912.P.10.1 SC.912.P.10.2 SC.912.P.10.3 SC.912.P.10.4 SC.912.P.10.5 Energy Skate Park: Basics Inclined Plane - Sliding Objects Rollercoaster Physics Pulley Lab Energy Skate Park The Ramp Division of Academics – Department of Science Second Nine Weeks Page 2 of 5 MIAMI-DADE COUNTY PUBLIC SCHOOLS Student BYOD Resource Page PHYSICS I Course Code: 200338001 Video Behavior and Laws of Energy Forces, Work, and Energy What Is a Machine Standard: SC.912.L.18.12 Video Why is Water Essential to Life on Earth? Water's Molecular Structure Chemical Properties of Water Water and Plants: A Unique Water's Importance to the Origins of Life What's so Special about Water Relationship Standard: SC.912.P.8.1 Video Standard: SC.912.N.1.1 Video Standard: SC.912.P.10.1 Energy and the Four States of Matter Four States of Matter Solids and Liquids Plasma: The Fourth State of Matter Intermolecular Forces Energy Around Us Energy Transfer Kinetic and Potential Energy Potential and Kinetic Energy Energy A Look at Energy Electromagnetism Nuclear Energy Chemical Energy Sound Energy The Energy of Heat Potential Energy and Work Elastic Potential Energy Article Video Standard: SC.912.P.10.2 Math Explanation Three Types of Systems Isolated Systems and the Law of Conservation of Energy The Law of Conservation of Energy and Analyzing Elastic and Inelastic Collisions Elastic Potential Energy Conservation of Momentum and the Energy of Motion Calculating Speed, Work, and Force Elasticity Article Division of Academics – Department of Science Second Nine Weeks Page 3 of 5 MIAMI-DADE COUNTY PUBLIC SCHOOLS Student BYOD Resource Page PHYSICS I Course Code: 200338001 Video Standard: SC.912.P.10.3 The Scientific Definition of Work: Force Times Distance Work Work = Force x Distance The Work of Energy Work Energy and Heat Introduction to Heat Transfer: Convection Introduction to Heat Transfer: Radiation Phase Changes Introduction to Heat Transfer: Conduction Heat Transfer Problem Understanding and Calculating Phase Change Problems Energy Exchanges Machines and Work Simple Machines - Egyptians Simple Machines - Greeks Elevators Power Power Calculating Work and Power Article Video Standard: SC.912.P.10.4 Math Explanation Article Video Standard: SC.912.P.10.5 Radiation Nuclear Energy Kinetic and Potential Energy in Phase Kinetic Molecular Theory Review of the Kinetic Molecular Theory Changes Particle Model of Matter: Temperature Temperature Math Celsius Temperature Scale Explanation Kelvin Temperature Scale Phase Changes and Temperature-Time Graphs The Three Laws of Thermodynamics Fahrenheit Temperature Scale Temperature Scale Practice Problems Thermodynamics Article Standard: SC.912.P.10.6 Video Division of Academics – Department of Science Second Nine Weeks Reaction Energy Diagrams Gravitational Potential Energy Page 4 of 5 MIAMI-DADE COUNTY PUBLIC SCHOOLS Student BYOD Resource Page PHYSICS I Course Code: 200338001 Standard: SC.912.P.10.7 Video Standard: SC.912.P.10.8 Video Video Endothermic versus Exothermic Chemical Reactions and Energy Changes Endothermic and Exothermic Reactions Endothermic and Exothermic Changes Efficiency of Heat Engines Entropy Division of Academics – Department of Science Second Nine Weeks Calculating Change in Entropy The Second Law of Thermodynamics G-Forces and the Safety of Roller Coasters Science Friction: Curling Downhill Science: Alpine Skiing Science of NHL Hockey: Work, Energy & Power The Science of Snowboarding Slapshot Physics: Hockey Safety Gear Science of NFL Football: Newton's Third Law of Motion Science Fair Winners Explain Their Energy Projects Missy Franklin and Fluid Dynamics The Science of Skates Photography Process Shows How Heat Affects Air Movement Sprinters, Horses, Crabs, Centipedes All Use Same Amount of Energy To Move Page 5 of 5