Summary13 - i If W NC = 0 E f = E i Power Power is the rate...

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Summary Lecture 13 (in an isolated system) ENERGY IS CONSERVED Energy <=> Work PE = mgh W = Fscos θ KE = m/2 v 2 PE E = k/2 x 2 Total work on an object W (total) = F net s cos θ Work Energy Theorem W (total) = Δ KE W NC + W C = Δ KE W NC = Δ KE + Δ PE = E f -E
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Unformatted text preview: i If W NC = 0 E f = E i Power Power is the rate at which work is done or energy is transformed P = W/t or Δ E/t Units: 1 J/s = 1 W [Watt Units: 1 J/s 1 W [Watt]...
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This note was uploaded on 12/06/2011 for the course PHYSICS 111&112 taught by Professor Unknown during the Spring '11 term at Ohio State.

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Summary13 - i If W NC = 0 E f = E i Power Power is the rate...

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