Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Textbook Question
Chapter 5, Problem 3P
Find the total resistance
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Look at the images shown. Why can we measure resistance with a pencil drawn on a piece of paper? What is the component/material that is on the pencil that gives a high resistance? With the values given on the images, what are the corresponding color codes (indicate tolerance using a 4-band color code scheme)? If the first value is connected in series with the other value, what is the total resistance? If it’s parallel what is the total resistance?
0.449 mega ohms
102.2 kilo ohms
Q5/ A- A series- type ohmmeter, designed to operate with a 6V battery, has a
circuit diagram as shown in figure below. The meter movement has an internal
resistance of 2000 Q and requires a current of 100uA for full scale deflection the
value of R1 is 49KO.
a) Assuming the battery voltage has fallen to 5.9V. Calculate the value of R2
required to zero the meter.
b) Under the conditions mentioned in part (a), an unknown resistor is
connected to the meter causing a 60 percent meter deflection. Calculate the
value of the unknown resistance.
RI
Rm
R25
Rx
pls explain concisely how to solve
Chapter 5 Solutions
Introductory Circuit Analysis (13th Edition)
Ch. 5 - For each configuration in Fig. 5.88, find the...Ch. 5 - For each configuration in Fig. 5.89, find the...Ch. 5 - Find the total resistance RT for each...Ch. 5 - Find the total resistance RT for each...Ch. 5 - For each circuit board in Fig. 5.92, �nd the...Ch. 5 - For the circuit in Fig. 5.93, composed of standard...Ch. 5 - For each configuration in Fig. 5.94, determine the...Ch. 5 - Find the resistance R, given the ohmmeter reading...Ch. 5 - What is the ohmmeter reading for each...Ch. 5 - For the series configuration in Fig. 5.97,...
Ch. 5 - For the series configuration in Fig. 5.98,...Ch. 5 - Find the applied voltage necessary to develop the...Ch. 5 - For each network in Fig. 5.100, constructed of...Ch. 5 - For each configuration in Fig. 5.101, what are the...Ch. 5 - For each configuration of Fig. 5.102, find the...Ch. 5 - For the circuit in Fig. 5.103, constructed of...Ch. 5 - Find the unknown quantities for the circuit of...Ch. 5 - Find the unknown quantities for the circuit in...Ch. 5 - Eight holiday lights are connected in series as...Ch. 5 - For the conditions specified in Fig. 5.107,...Ch. 5 - Combine the series voltage sources in Fig. 5.108,...Ch. 5 - Determine the current I and its direction for each...Ch. 5 - Find {he unknown voltage source and resistor for...Ch. 5 - Using Kirchhoffs voltage law, find the unknown...Ch. 5 - Find the current I for the network of Fig. 5.112....Ch. 5 - Using Kirchhoffs voltage law, determine the...Ch. 5 - Using Kirchhoffs voltage law, find the unknown...Ch. 5 - Determine the values of the unknown resistors in...Ch. 5 - For the configuration in Fig. 5.116, with standard...Ch. 5 - Using the voltage divider rule, find the indicated...Ch. 5 - Using the voltage divider rule or Kirchhoffs...Ch. 5 - Using the voltage divider rule or Kirchhoffs...Ch. 5 - Using the information provided, find the unknown...Ch. 5 - Using the voltage divider rule, �nd the unknown...Ch. 5 - Design a voltage divider circuit that will permit...Ch. 5 - Design the voltage divider in Fig. 5.122 such that...Ch. 5 - Find the voltage across each resistor in Fig....Ch. 5 - Design the circuit in Fig. 5.124 such that...Ch. 5 - Determine the voltages Va,Vb, and Vab for the...Ch. 5 - Determine the current I (with direction) and the...Ch. 5 - For the network in Fig. 5.127 determine the...Ch. 5 - Given the information appearing in Fig. 5.128,...Ch. 5 - Determine the values of R1,R2,R3, and R4 for the...Ch. 5 - For the network in Fig. 5.130, determine the...Ch. 5 - For the integrated circuit in Fig. 5.131,...Ch. 5 - For the integrated circuit in Fig. 5.132,...Ch. 5 - Find the internal resistance of a battery that has...Ch. 5 - Find the voltage to the load (full-and conditions)...Ch. 5 - Determine the current through the circuit in Fig....Ch. 5 - Use the computer to verify the results of Example...Ch. 5 - Use the computer to verify the results of Example...Ch. 5 - Use the computer to verify the results of Example...
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- Q5/ A battery having an (e.m.f) of 110v and an internal resistance of 0.2Q is connected in parallel with another battery with (e.m.f) of 100v and a resistance of 0.25Q . These two in parallel are placed in series with a regulating resistance of 50 and connected a cross 220v mains. Calculate the magnitude and direction of the current in each battery and the total current taken from the mains supply : 110 V 0.2 2 B 0.250 100 V D 220 V Earrow_forwardAnswer both parts with explainarrow_forwardProblem 5.1: Calculate the voltage at V relative to ground in the following circuit. Assume the following values: V1 = 12 V, V2 = 10 V, R₁ =4 kQ, R2 = 2 kQ, and R3 = 3 kQ,. Give your answer in units of volts. V2 R₁ V +1 V₁ Ry w R2arrow_forward
- Q5. Two same size PV Modules are connected in Parallel. The specification of each module is given as, Number of cells = 39, Area of each cell is 10 cm x 10 cm, the insolation value is 900 W/m?, take efficiency of module as 12%. Calculate the following for the above PV Panel. A. Total Output Voltage B. Total Current Output D. Total Power Outputarrow_forward2. A solar panel installation will be made up of 600 cells, each of which generates 2.5W @ 0.5V.The panels will be connected to a converter/controller through cables with a total of 0.5 Ohmsof resistance.a. What is the percentage power loss due to the cable resistance if the panels areconnected so that the output voltage is limited to 50V?b. What is the percentage power loss due to the cable resistance if the panels areconnected so that the output voltage is 300V?arrow_forwardUsing the circuit in the figure, the experimentercalculates the internal resistance Rx of the structure “X” as“U/I” (U and I: Readings of the instruments). Can you please explain the solution in detail? Thanksarrow_forward
- Question 5 a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like.arrow_forwardSubject:Circuits INote:Support the problems with circuit diagram and label the pertinent partsPlease with full solutionarrow_forwardA PMMC instrument has internal resistance of 0.9 kN and gives full scale deflection for 53 mA. The required resistance value of multiplier resistors for employing the meter as a multi range voltmeter for voltage range 77 V will be ohms. O -211.69 O 144.38 O 85502.56 O 552.83arrow_forward
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Current Divider Rule; Author: Neso Academy;https://www.youtube.com/watch?v=hRU1mKWUehY;License: Standard YouTube License, CC-BY