Help please SchematicsBR1R3Figure 2.1I.aboratury Manual fur Circuits Lab1. Using the circuit of Figure 2.1 with RI1 k. R2 -2.2 k. R3 = 3.6 k. and Ethe theoretical current and record it in Table 2.1. Construct the circuit. Set the9 volts, determineDMM to read DCcurrent and insert it in the circuit at point A. Remember, ammeters goin-line and require thecircuit to be opened for proper measurement. The red lead should be placed closer to the positivesource terminal. Record this current in Table 2.1. Repeat the current measurements at points B andC.2. Using the theoretical current found in Step 1, apply Ohm's law to determine the expected voltagedrops across R1, R2, and R3. Record these values in the Theory column of Table 2.2.3. Set the DMM to measure DC voltage. Remember, unlike current, voltage is measured acrosscomponents. Place the DMM probes across RI and measure its voltage. Again, red lead should beplaced closer to the positive source terminal. Record this value in Table 2.2. Repeat this process forthe voltages across R2 and R3. Determine the percent deviation between theoretical and measuredfor cach of the three resistor voltages and record these in the final column of Table 2.2. 6. To find VAC, place the red probe on point A and the black probe on point C. Similarly, to find VB.place the red probe on point B and the black probe on ground. Record these values in Table 2.3 withdeviations.SimulationBuild the circuits of Figure 2.1 and 2.2 in a simulator (and save images). Create a table of DC analysis(voltage and current), and compare these to the theoretical and measured values recorded in Table 2.1through 2.3Data TablesI TheoryI Point AI Point BI Point C| SimulationTable 2.1SimulationTheoryMeasuredDeviationVoltageR2R3Table 2.2

Note: Here we have solved only theory part of the questions. For remaining parts, actual experiment…

Using the circuit of Figure 2.1 with RII k, R2 -2.2k, R3 = 3.6 k, andE-9 volts, determine the theoretical current and record it in Table 2.1. Construct the circuit. Set the DMM to read DC current and insert it in the circuit at point A. Remember, ammeters goin-line and require the circuit to be opened for proper measurement. The red lead should be placed closer to the positive source terminal. Record this current in Table 2.1. Repeat the current measurements at points B and C. Using the theoretical current found in Step 1, apply Ohm's law to determine the cxpected voltage drops across RI, R2, and R3. Record these valucs in the Theory column of Table 2.2.

Using the circuit of Figure 2.1 with RII k, R2 -2.2k, R3 = 3.6 k, andE-9 volts, determine the theoretical current and record it in Table 2.1. Construct the circuit. Set the DMM to read DC current and insert it in the circuit at point A. Remember, ammeters goin-line and require the circuit to be opened for proper measurement. The red lead should be placed closer to the positive source terminal. Record this current in Table 2.1. Repeat the current measurements at points B and C. Using the theoretical current found in Step 1, apply Ohm's law to determine the cxpected voltage drops across RI, R2, and R3. Record these valucs in the Theory column of Table 2.2.

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

Define the unit step function and the shifted unit step function. Need correct solution within 20 mins. Posted multiple times, still not a single correct response. Please Help.
Hello, I am doing some practice and I am getting hung up on my cross product derivation. I know it is supposed to be zero, but I want to prove it with the math. Could you help me out with this? Thank you for your time and effort, I appreciate the help. Please see attached for probelm.
energyguide labels are not required for TV's, ranges, ovens, and clothes dryers. Why do you think this is true?
Remaining Time: 1 hour, 03 minutes, 50 seconds. v Question Completion Status: A Click Submit to complete this assessment. Question 10 Measurement CT should not saturate by design during fault O True O False A Click Submit to complete this assessment. earch TOSHIBA F4 F6 F7 FB BAC F9 F10 5n 7. 8 9 Y ! U
Write few points about combinational circuits?
What is a recloser? For what purposes and for what kind of faults can it be used frequently? Explain the impacts of reclosers on supply quality considering the quality indices (SAIDI, SAIFI).
can you do question iii please?
Hello. Attached is a practice problem I am working on. I am super confused on how to get started and not sure how to complete the problem. Could you help me through it? Thank you. I appreciate your time.
i need a code and diagram to make circuit arduino uno with these sensors MQ_7 gas sensor with (buzzer 4_8v DC) Dht22 flame detection sensor digital with (buzzer 4 - 8v Dc) hw 596 pressure alarm all these sensors show on lcd 20*4 i2c thanks
Answer ONLY the items in number 07. Circuit Diagram is given below. Thanks!!!NOTE: I only included number 5 question because it has connection to number 7.