please answerrr b) Add the measured voltages E, ER.VdeEg, and Eg, together. Does this sum equal thesource voltage?madaCALCULATEDMEASUREDc) If you added the four voltage drops, thensubtracted the sum from the source voltage, wouldthe result be zero?Table 9-14. a) Disconnect resistor R. from the circuit.b) Connect the 10K2 potentiometer, resis-b) Measure the current flowing in the cirtor Rs, with a jumper wire connecting terminals 2and 3 into the circuit in place of resistor Ra asshown in Fig. 9-2.cuit,mAdeNOTE: Resistor R; is a potentiometer wired as arheostat. Rheostats and potentiometers will be in-vestigated in Laboratory Experiment No. 14. Dur-ing this Procedure it is only necessary that youknow you can vary the ohmic value of resistor R;between zero and 10,000 ohms.c)Use the Electronic VOM and measurethe voltage drops across resistors R1, R2, R3 andR4.d) Enter the measured current and voltagesin Table 9-1.e) Compare your calculated and measured0-10mAdcmAcircuit values.1KAre they the same?1KWhat factors could cause them to be different?0-30vde1.5KR, 10KFig. 9-2f) Return the voltage to zero and turn offthe power source.c) Turn on the power source and adjust to3. a), Use the measured current and voltagevalues to calculate the actual value of each of the30Vde.d) Adjust resistor Rs until the milliam-resistors.meter indicates a current flow of 2.5mAdc.e) Use Ohm's Law to calculate the voltagesR, =ER, ER, and Eg, across resistors R,, R2 and R3R =ER,VdcVdcR4 =EgsVdeSERIES CIRCUITS - KIRCHHOFF'S LAW9-3

Answered: Image /qna-images/answer/ae7cc1a1-1fdd-4f69-8827-389bba65c440.jpg

0-10mAdc mA IK 1K 0-3ovde 1.5K R, 10K Fig. 9-2 c) Turn on the power source and adjust to 30Vdc. d) Adjust resistor R, until the milliam- meter indicates a current flow of 2.5mAdc. e) Use Ohm's Law to calculate the voltages ER, ER, and Eg across resistors R,.R2 and R3. Vdc ER, ERs Vdc Egs Vde %3D 9-3

0-10mAdc mA IK 1K 0-3ovde 1.5K R, 10K Fig. 9-2 c) Turn on the power source and adjust to 30Vdc. d) Adjust resistor R, until the milliam- meter indicates a current flow of 2.5mAdc. e) Use Ohm's Law to calculate the voltages ER, ER, and Eg across resistors R,.R2 and R3. Vdc ER, ERs Vdc Egs Vde %3D 9-3

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...

See similar textbooks

Similar questions

leaving a freevway. Current from the opposite side must travel further, weakening the potential on that side. This creates a potent the motor in that direction, causing the motor to spin. O Only the side where the switch is closed forms a cormplete circuit, so the motor must spin in that direction. Answer the questions and submit the photos for questions 2 -9using the circuit from STEP 2. D2 Yellow R1 50 Q R2 50 0 R3 PSB (+ 5 V 100 aLW R4 D1 100 Q Blue SW1 Sw2 Question 2 本

A resistor has a resistance of 20 ohms at 30 degrees Celsius and 32 ohms at 90 degrees Celsius. Find its resistance at 125 degrees Celsius. Determine also the temperature coefficient at 100 degrees Celsius. (Please Show Complete solution and write properly) (Round off the final answer to the 4th decimal if possible and box the final answer)
What is the voltage of UR1 falling on the resistor R1 in the circuit given in the figure?
detailed Solution fast. R1 and R2 values are same.
For the Cicuit shown in Figure Vec=gV , Bc=1:8Kn ,=100 Zo=7 Ai = ? 39tr 22K 5n %3 C3 Res? Zis? Vi eH
it is the ratio of measured voltage to the measured current of an electrical load circuit. A. Resistance B. Hot resisitance C. Cold resistance D. infinite Resistance
A galvanometer with a internal resistance of 400 and a shunt resistor of value 'Rsh' is connected in series with a 100 resistor. A constant voltage VO' is applied aoross the oircuit, and the galvanometer deflects a certain amount. The shunt resistor is then removed, and replaced in series with the 100 resistor. With the same voltage 'VO', the galvanometer deflection is unchanged. Calculate the value 'Rsh' of the shunt resistor.
For the circuit below, determine the resistor voltage. The source is 5 volts, the Zener potential is 5.2 volts and the resistor is 1k ohms.
A current of 5 amperes enters a parallel combination of two unequal, unknown resistors (R1 and R2)supplied from a 45 volts DC source. If the two resistors are connected in series, the current drawnfrom the same source decreases to 937.5 mA. R1 has a lesser resistance than R2. Find R1 and R2.
the value of the current in each fiqure below, the values being 9s shown. Acircuit is Sranged qs indicated in the Calculate branch and its obre a relative to the Supply voltage san 200, SOHZ
R1 of 90 kilo ohm and R2 of 10 kilo ohm are in series across a 43-volt source. A) Draw the schematic diagram. B) What is the voltage drop at R2?
Problem 452 16V for circuit shown in figure, find the current in each resistor. Itas ce