Problem 2A nuclear power plant produces on average 600 MW, the voltage transmission lines operateat 345 kV. The transmission lines are made out of aluminum with a resistivity of2.83x10-8N m. Assume the crosssectional area of the wire is 600 mm2 Measure the energy lossassociated with transmission of 100 miles? Assuming that each house on average consumes1.3 kW, how many houses of power are lost in transmission?Pe =

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A nuclear power plant produces on average 600 MW, the voltage transmission lines operate at 345 kV. The transmission lines are made out of aluminum with a resistivity of pe 2.83x10-82 m. Assume the crosssectional area of the wire is 600 mm² Measure the energy loss associated with transmission of 100 miles? Assuming that each house on average consumes 1.3 kW, how many houses of power are lost in transmission?

A nuclear power plant produces on average 600 MW, the voltage transmission lines operate at 345 kV. The transmission lines are made out of aluminum with a resistivity of pe 2.83x10-82 m. Assume the crosssectional area of the wire is 600 mm² Measure the energy loss associated with transmission of 100 miles? Assuming that each house on average consumes 1.3 kW, how many houses of power are lost in transmission?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

Problem 2
A nuclear power plant produces on average 600 MW, the voltage transmission lines operate
at 345 kV. The transmission lines are made out of aluminum with a resistivity of
2.83x10-8N m. Assume the crosssectional area of the wire is 600 mm2 Measure the energy loss
associated with transmission of 100 miles? Assuming that each house on average consumes
1.3 kW, how many houses of power are lost in transmission?
Pe =

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