Consider the circuit shown in Figure. 2.00 N 3.00 N 1.00 N 18.0 V 4.00 N 1. The equivalent resistance of the above circuit is 6.75 Ω 2. The total current supplied by the battery is = 2.66 A 3. The potential differences across 30, 10 is= 1.995 V 4. The Power dissipated in the 20 is =| W & Power dissipated 40 is = W W 5. The power dissipated across 10 is = W & Power dissipated 30 is =

Consider the circuit shown in Figure. 2.00 N 3.00 N 1.00 N 18.0 V 4.00 N 1. The equivalent resistance of the above circuit is 6.75 Ω 2. The total current supplied by the battery is = 2.66 A 3. The potential differences across 30, 10 is= 1.995 V 4. The Power dissipated in the 20 is =| W & Power dissipated 40 is = W W 5. The power dissipated across 10 is = W & Power dissipated 30 is =

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter29: Dc Generators

Section: Chapter Questions

Problem 1PA: You are working as an electrician in a large steel manufacturing plant, and you are in the process...

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