(25 pts. Given the following circuit, determine the the current running through the 18 [] resistor (ia), the voltagedrop across the 40 [] resistor (v), and show that the power supplied by the circuit is equal to the power dissipatedby the circuit.50 [V] (+201+18 [22]+40 [92]20 [V]

Answered: Image /qna-images/answer/389d49e6-cc68-4633-ab96-2750bfbbf248.jpg

Given the following circuit, determine the the current running through the 18 [2] resistor (a), the voltage drop across the 40 [22] resistor (u), and show that the power supplied by the circuit is equal to the power dissipated by the circuit.. 50 [V]+ 201 ww 18 [22] ww 40 [92] +20 [V]

Given the following circuit, determine the the current running through the 18 [2] resistor (a), the voltage drop across the 40 [22] resistor (u), and show that the power supplied by the circuit is equal to the power dissipated by the circuit.. 50 [V]+ 201 ww 18 [22] ww 40 [92] +20 [V]

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter2: Electrical Quantities And Ohm’s Law

Section: Chapter Questions

Problem 4RQ: Define ohm.

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Electrical Heating Unit

The conversion of electrical energy to heat energy is known as electric heating. The heating system that converts the electrical energy to heat energy for various application is called electrical heating unit. Electricity is employed as the firing mechanism in electric heating systems, which transforms electric current to heat. Electric heaters have heating elements in the form of electric resistors.

Question

(25 pts. Given the following circuit, determine the the current running through the 18 [] resistor (ia), the voltage
drop across the 40 [] resistor (v), and show that the power supplied by the circuit is equal to the power dissipated
by the circuit.
50 [V] (+
201
+
18 [22]
+
40 [92]
20 [V]

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