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Topic: Energy Do Now: 1. Take out HW and open up your notes from yesterday All physical & chemical changes are accompanied by change in energy The chemistry of energy changes is known as Thermochemistry! Energy: Ability to do Work The SI unit for an energy measurement is called the Joule (J) EXAMPLE: 1 Joule = amount of energy required to lift a golf ball 1 meter Other Energy Units: calorie, Calorie, BTU’s 1 calorie = 4.18 Joules 1 Calorie = 1000 calories = 1 kilocalorie There are 2 types of energy (we are going to draw another chart – like the on we did for matter – in our notebook Energy Non-mechanical – too small to see Mechanical – large enough to see Kinetic Potential Chemical (Not a complete list!) Heat Light Electrical Nuclear Kinetic Energy (KE) – makes things move • KE = ½ x Mass x Velocity2 = ½ mV2 • KE depends on how heavy and how fast Potential Energy (PE): stored energy of matter • When Potential energy is released from matter it becomes kinetic energy Chemical Energy • energy stored in bonds; it is released as the result of a chemical reaction Heat Energy • Energy related to the changes in temperature Light Energy – makes things visible Electrical Energy – result of the flow of electrons Nuclear: energy is released by the change in the nucleus of an atom (can be very explosive) Law of Conservation of Energy • Energy is neither created nor destroyed in ordinary chemical or physical change Energy before = Energy after Energy can be converted from one form to another - potential to kinetic - radiant to electric - electric to heat - chemical to kinetic - chemical to electrical Energy of Universe is conserved Universe EnvironmentEnvironment System Energy Energy can move between the system and the environment Two ways to classify chemical reaction: 1. energy (heat) is given off = exothermic 2. energy (heat) is absorbed = endothermic Exothermic – releases heat to environment QUESTION: What happens to the temperature of the environment? QUESTION: What happens to temperature of system? a EXO - energy leaves system (exits) Temperature of environment Environment Temperature of system System Energy Endothermic – heat is absorbed by the system QUESTION: What happens to the temperature of the environment? QUESTION: What happens to temperature of system? Endo - Energy enters system (enter) Temperature of environment Environment System Energy Temperature of system • Note: Heat flows from hotter object to cooler object • Example; Cold pack on leg: Heat flows from the leg to the cold pack! – Leg cools down; cold pack warms up
