(a) A circuit is constructed using three batteries of voltages E = 12 V, E2 = 14 V and Ez = 15 V connected in parallel. The three batteries have internal resistances R = 0.2 N, R2 = 0.25 N and R3 = 0.5 N respectively. These parallel connected batteries supply a load comprised of a resistance R4 = 100 N connected in series with the the parallel combination of R5 = 200 n and R6 = 120 N. %3D %3D %3D %3D %3D %3D Sketch the circuit and label all components including voltage polarities. Assume all series connected batteries are connected using a series aiding arrangement.

Transcribed Image Text:

(a) A circuit is constructed using three batteries of voltages E, = 12 V, E2 = 14 V and E3 = 15 V connected in parallel. The three batteries have internal resistances R, = 0.2 N, R2 = 0.25 N and R3 = 0.5 N respectively. These parallel connected batteries supply a load comprised of a resistance R4 = 100 N connected in series with the the parallel combination of R5 = 200 N and R6 = 120 N. %3D %3D %3D Sketch the circuit and label all components including voltage polarities. Assume all series connected batteries are connected using a series aiding arrangement. (b) For the circuit shown in Figure 1, find the current I4. I I2 I1 I3 I4 R4 = 10 2 E1 = 100 V R = 10 2 R2 = 10 2 Rs = 22 %3D R1 = 1.0 2 R3 = 1 2 Figure 1: Circuit for Question 1(b) Question 1 (Continued) (c) A circuit has a short circuit current of Isc = 20 A and an open circuit voltage of Voc = 30 V. i.) Sketch the Norton equivalent circuit. ii.) Find the power dissipated in a load resistance of R = 20n when %3D connected to the circuit.