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Published byAnabel Knight Modified over 9 years ago
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Thermodynamics
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Consider two blocks of Energy A and B with different temperatures Ta and Tb. Ta > Tb. Heat will flow from Block A to block B until they are at the same temperature. The sum of the changes in energy will equal 0 because ENERGY IS CONSERVED! So ΔEa+ΔEb = 0 And ΔE = Q = mcΔT Lets derive an equation for the final temperature!!!
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Thermodynamics The first law of thermodynamics: Whenever heat is added to a system (groups of atoms, molecules, particles, etc.), it transforms to an equal amount of some other form of energy. Mathematically: ΔHeat = Δinternal energy + work Change in heat = change in internal energy + external work done by the system
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Thermodynamics The process of compressing or expanding a gas with no heat transfer is called a adiabatic process.
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Thermodynamics Second law of Thermodynamics: Heat will never flow from a cold object to a hot object Heat will flow from a hot object to a cold object until the objects both have the same temperature.
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Heat Engines A heat engine is any machine that changes internal energy into mechanical work. Heat flows from a high temperature reservoir, to a low temperature one 2 nd Law of Thermo says only some of the heat can be used as work, while the rest is used to heat the low temperature reservoir.
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Heat Engines
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Thermodynamics Oh no try the problems
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Thermodynamics The Zeroth law of Thermodynamics If two thermodynamics systems are each in thermal equilibrium with a third, then they are in thermal equilibrium with each other.
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Entropy Entropy is the measure of the amount of disorder in a system Entropy always increases, all systems strive to move from order to disorder.
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Entropy Systems that are allowed to distribute their energy freely will do so such that entropy increases As entropy increases, the energy available to do work decreases Entropy = S = ΔQ/T
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Thermodynamics Homework: DUE 12/2 WEDNESDAY Pg 247 #2 Pg 248 #5, 6, 7 Pg 252 #9, 10 Pg 255 #13, 15 EXTRA CREDIT: #16
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