2. Figure shows resistors wired in a combination of series and parallel. In th below mentioned circuit, R1 = 20, R2 = 42, R3 = 60, R4 = 80. The battery w %3D %3D %3D %3D is 12V. (a)Find the equivalent resistance of the circuit, (b) source current voltage drop across R1 (d) The voltage drop across R4 (e) TH power dissipated across R4. R1 R2 V R3 RA %3D 1. The equivalent resistance of the circuit is : A 2. The source current is = V %3D 3. The voltage drop across R, is = V. 4.The voltage drop across R4 is = 5. The power dissipated across R4 is = ww ww
2. Figure shows resistors wired in a combination of series and parallel. In th below mentioned circuit, R1 = 20, R2 = 42, R3 = 60, R4 = 80. The battery w %3D %3D %3D %3D is 12V. (a)Find the equivalent resistance of the circuit, (b) source current voltage drop across R1 (d) The voltage drop across R4 (e) TH power dissipated across R4. R1 R2 V R3 RA %3D 1. The equivalent resistance of the circuit is : A 2. The source current is = V %3D 3. The voltage drop across R, is = V. 4.The voltage drop across R4 is = 5. The power dissipated across R4 is = ww ww
Chapter10: Direct-current Circuits
Section: Chapter Questions
Problem 69AP: Consider the circuit below. The battery has an emf of = 30.00 V and an internal resistance of r =...
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Question
2. Figure shows resistors wired in a combination of series and parallel. In the below mentioned circuit, R1 = 2Ω, R2 = 4Ω, R3 = 6Ω, R4 = 8Ω. The battery voltage is 12V.
(a)Find the equivalent resistance of the circuit, (b) source current (c) The voltage drop across R1 (d) The voltage drop across R4 (e) The power dissipated across R4.
1
1. The equivalent resistance of the circuit is =
Ω
2. The source current is = Answer
A
3. The voltage drop across R1 is =
V
4.The voltage drop across R4 is =
V
5. The power dissipated across R4 is =
W
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