In the figure is shown a battery having an emf of 12 Volts and an internal resistance of 0.40 Ohm.A resistor R, of 2.6 Ohms is connected acrossitsterminals ab. Determine (a) resistance of Rwhich, when connected across terminals ab inparallel with R, will make the powerdelivered by the battery a maximum; (b)current in R, and R; (c) terminal voltage ofbattery; (d) power in R, and in R; (e) power lost in batteryE = 12 VR= 2.6)r = 0.40 S2·Hint: To maximize power in R, use differentiation

In the circuit, Find the value of R for Maximum power transfer to the load R. Current and power in…

Answered: In the figure is shown a battery having…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Similar questions

For the circuit shown in the figure below, find the following. the current in each resistor,I2Ω(top) =,I2Ω(middle) =,I6Ω =,the power supplied by each source of emf P 4V(top) =,the power delivered to each resistorP 1Ω =,P6 Ω =,P2Ω(middle)=
Show and COMPLETE solutions. Draw all CIRCUIT DIAGRAMS or the equivalent circuit (dummy circuit) as the case may be. A battery is to consist of 20 identical cells. The emf of each cell is 1.5 V and the internal resistance is 0.20 ohm. This battery will be used to supply power to a 10-ohm lamp. Determine thecurrent on the lamp if: The 20 cells are arranged 5 cells in series in 4 parallel rows.
A parallel combination consisting of resistors A and B is connected across the terminals of a battery. The resistor A has twice the resistance of B. If the current carried by resistor A is I, what is the current carried by resistor B? O a. I/2 O b. 21 O c. I/4 O d. I O e. 41
Testing a Battery Without a Tester The internal resistance says a lot about the state of the battery. To calculate the actual internal resistance of the battery, MULTIMETER proceed as follows: • Measure the source voltage (voltage when no current is flowing) (Vo) and terminal voltage (voltage when current is flowing) (Vc). CE CAT I Calculate the voltage drop across the internal resistance OFF V 200m 20M (V, - Vo- Vc). CURRENT CLAMP 2. 2M • Measure the load current (1). Calculate the internal resistance (R = V/ I). OFF 20- -200K 1mV/A 200- 20K 10mV/A 600 2K ... A ZERO 10 200 10 COM The battery being tested has a CCA rating of 640 A. The battery manufacturer specifies that the maximum internal resistance should not exceed 2.5 + cold cranking amps (CCA) rating of the battery. What is the maximum acceptable internal resistance value for this battery?

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