Laboratory Manual for Introductory Circ...13th EditionRobert L. Boylestad, Gabriel Kousourou Publisher: PEARSONISBN: 9780133923780
Laboratory Manual for Introductory Circ...
Solutions for Laboratory Manual for Introductory Circuit Analysis
Problem 1P:
a. Find the electric field strength at a point 1 m from a charge of 4 C. b. Find the electric field...Problem 2P:
The electric field strength is 72 newtons/coulomb (N/C) at a point r meters from a charge of 2 C ....Problem 3P:
Find the capacitance of a parallel plate capacitor if 1200 C of charge are deposited on its plates...Problem 4P:
How much charge is deposited on the plates of a 0.15 F capacitor if 120 V are applied across the...Problem 5P:
a. Find the electric field strength between the plates of a parallel plate capacitor if 500 mV are...Problem 6P:
A 6.8 pF parallel plate capacitor has 160 C of charge on its plates. If the plates are 2 mm apart,...Problem 7P:
Find the capacitance of a parallel plate capacitor if the area of each plate is 0.1 m2 and the...Problem 9P:
Find the distance in mils between the plates of a 2 F capacitor if the area of each plate is 0.15 m2...Problem 10P:
The capacitance of a capacitor with a dielectric of air is 1360 pF. When a dielectric is inserted...Problem 11P:
The plates of a parallel plate capacitor with a dielectric of Bakelite are 0.2 mm apart and have an...Problem 12P:
A parallel plate air capacitor has a capacitance of 4.7 F Find the new capacitance if: a. The...Problem 13P:
Find the maximum voltage that can be applied across a parallel plate capacitor of 6800 pF if the...Problem 14P:
Find the distance in micrometers between the plates of a parallel plate mica capacitor if the...Problem 15P:
A 22 pF capacitor has -200 ppm/C at room temperature of 20C. What is the capacitance if the...Problem 16P:
What is the capacitance of a small teardrop capacitor labeled 40 J? What is the range of expected...Problem 17P:
A large, flat, mica capacitor is labeled 471F. What are the capacitance and the expected range of...Problem 18P:
A small, flat, disc ceramic capacitor is labeled 182K. What are the capacitance level and the...Problem 19P:
For the circuit in Fig. 10.94, composed of standard values: a. Determine the time constant of the...Problem 21P:
For the circuit in Fig. 10.95, composed of standard values: a. Determine the time constant of the...Problem 22P:
For the circuit in Fig. 10.96, composed of standard values: a. Determine the time constant of the...Problem 24P:
The voltage across a 10 F capacitor in a series R-C circuit is vc=40mV(1-e-t/20ms). a. On a...Problem 25P:
For the R-C circuit in Fig. 10.97. composed of standard values: a. Determine the time constant of...Problem 26P:
For the network in Fig. 10.98. composed of standard values: a. Write the mathematical expressions...Problem 27P:
For the network in Fig.10.99.composed of standard values: a. Find the mathematical expressions for...Problem 28P:
The 1000 F capacitor in Fig.10.100 is charged to 12 V in an automobile. To discharge the capacitor...Problem 29P:
The capacitor in Fig. 10.101 is initially charged to 6 V with the polarity shown. a. Write the...Problem 30P:
Repeat Problem 29 if the initial charge is -40V.Problem 31P:
Repeat Problem 29 if the initial charge is +40V.Problem 32P:
The capacitor in Fig. 10.102 is initially charged to 20 V before the switch is closed. Write the...Problem 33P:
The capacitor in Fig. 10.103 is initially charged to 10 V with the polarity shown. Write the...Problem 34P:
The capacitor in Fig. 10.104 is initially charged to 8 V with the polarity shown. a. Find the...Problem 35P:
The capacitors of Fig. 10.105 are initially uncharged. a. Sketch the waveform for Uc after the...Problem 37P:
Given the expression vc=140mV(1-e-t/2ms) a. Determine Uc at t = 1 ms. b. Determine Uc at t = 20 ms....Problem 38P:
For the automobile circuit of Fig. 10.106. VL must be 8 V before the system is activated, If the...Problem 39P:
Design the network in Fig.10.107 such that the system turns on 10 s after the switch is closed....Problem 40P:
For the circuit in Fig. 10.108: a. Find the time required for Uc to reach 48 V following the closing...Problem 41P:
For the system in Fig. 10.109. using a DMM with a 10 M internal resistance in the voltmeter mode:...Problem 42P:
For the circuit in Fig. 10.110: a. Find the mathematical expressions for the transient behavior of...Problem 43P:
The capacitor in Fig. 10.111 is initially charged to 10 V with the polarity shown. a. Write the...Problem 44P:
The capacitors in Fig. 10.112 are initially charged to 12 V with the polarity shown. a. Write the...Problem 45P:
For the circuit in Fig. 10.113: a. Find the mathematical expressions for the transient behavior of...Problem 46P:
The capacitor in Fig. 10.114 is initially charged to 8 V with the polarity shown. a. Write the...Problem 47P:
For the system in Fig. 10.115, using a DMM with a 100 M internal resistance in the voltmeter mode:...Problem 48P:
Find the waveform for the average current if the voltage across the 2 F capacitor is as shown in...Problem 49P:
Find the waveform for the average current if the voltage across the 4.7 F capacitor is as shown in...Problem 50P:
Given the waveform in Fig.10.118 for the current of a 20 F capacitor, sketch the waveform of the...Problem 53P:
Find the steady-state voltage across and the charge on each capacitor for the circuit in Fig.10.121....Problem 54P:
Find the steady-state voltage across and the charge on each capacitor for the circuit in Fig.10.122....Problem 55P:
For the configuration in Fig. 10.123, determine the steady-state voltage across each capacitor and...Problem 56P:
For the configuration in Fig.10.124, determine the steady-state voltage across each capacitor and...Problem 58P:
If the energy stored by a 6 F capacitor is 1200 J, find the charge Q on each plate of the capacitor.Problem 59P:
For the network in Fig. 10.125, determine the energy stored by each capacitor under steady-state...Problem 60P:
An electronic flashgun has a 1000 F capacitor that is charged to 100 V. a. How much energy is stored...Problem 62P:
Using the initial condition operator, verify the results in Example 10.8 for the charging phase...Browse All Chapters of This Textbook
Chapter 1 - IntroductionChapter 2 - Voltage And CurrentChapter 3 - ResistanceChapter 4 - Ohm’s Law, Power, And EnergyChapter 5 - Series Dc CircuitsChapter 6 - Parallel Dc CircuitsChapter 7 - Series-parallel CircuitsChapter 8 - Methods Of Analysis And Selected Topics (dc)Chapter 9 - Network TheoremsChapter 10 - Capacitors
Chapter 11 - InductorsChapter 12 - Magnetic CircuitsChapter 13 - Sinusoidal Alternating WaveformsChapter 14 - The Basic Elements And PhasorsChapter 15 - Series Ac CircuitsChapter 16 - Parallel Ac CircuitsChapter 17 - Series-parallel Ac NetworksChapter 18 - Methods Of Analysis And Selected Topics (ac)Chapter 19 - Network Theorems (ac)Chapter 20 - Power (ac)Chapter 21 - ResonanceChapter 22 - Decibels, Filters, And Bode PlotsChapter 23 - TransformersChapter 24 - Polyphase SystemsChapter 25 - Pulse Waveforms And The R-c ResponseChapter 26 - Nonsinusoidal Circuits
Sample Solutions for this Textbook
We offer sample solutions for Laboratory Manual for Introductory Circuit Analysis homework problems. See examples below:
Chapter 1, Problem 1PChapter 2, Problem 1PChapter 3, Problem 1PChapter 4, Problem 1PChapter 5, Problem 1PChapter 6, Problem 1PChapter 7, Problem 1PChapter 8, Problem 1PChapter 9, Problem 1P
Chapter 10, Problem 1PChapter 11, Problem 1PChapter 12, Problem 1PChapter 13, Problem 1PChapter 14, Problem 1PChapter 15, Problem 1PChapter 16, Problem 1PChapter 17, Problem 1PChapter 18, Problem 1PChapter 19, Problem 1PChapter 20, Problem 1PChapter 21, Problem 1PChapter 22, Problem 1PChapter 23, Problem 1PChapter 24, Problem 1PChapter 25, Problem 1PChapter 26, Problem 1P
More Editions of This Book
Corresponding editions of this textbook are also available below:
Introductory Circuit Analysis
12th Edition
ISBN: 9780137146666
Laboratory Manual For Introductory Circuit Analysis (pearson Custom Electronics Technology)
12th Edition
ISBN: 9780135060148
Introductory Circuit Analysis and Laboratory Manual for Introductory Circuit Analysis (12th Edition)
12th Edition
ISBN: 9780132110648
INTRODUCTORY CIRCUIT ANALYSIS
14th Edition
ISBN: 9780137594115
EBK INTRODUCTORY CIRCUIT ANALYSIS
13th Edition
ISBN: 8220100668234
Introductory Circuit Analysis
13th Edition
ISBN: 9780133923919
EBK INTRODUCTORY CIRCUIT ANALYSIS
13th Edition
ISBN: 9780133923872
Introductory Circuit Analysis; Laboratory Manual For Introductory Circuit Analysis Format: Kit/package/shrinkwrap
13th Edition
ISBN: 9780134297446
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
EBK INTRODUCTORY CIRCUIT ANALYSIS
13th Edition
ISBN: 9780100668232
Introductory Circuit Analysis
13th Edition
ISBN: 9780133923773
Introductory Circuit Analysis, Global Edition
13th Edition
ISBN: 9781292098951
INTRODUCTORY CIRCUIT ANALYSIS-LAB.MAN.
14th Edition
ISBN: 9780137283644
Introductory Circut Analysis, Custom Edition
9th Edition
ISBN: 9780536608765
Introductory Circuit Analysis - Textbook Only
10th Edition
ISBN: 9780005336496
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