EBK THE ANALYSIS AND DESIGN OF LINEAR C8th EditionToussaint Publisher: YUZUISBN: 9781119228226
EBK THE ANALYSIS AND DESIGN OF LINEAR C
Solutions for EBK THE ANALYSIS AND DESIGN OF LINEAR C
Problem 2.2P:
The voltage across a particular resistor is 8.60 V and the current is 366A. What is the actual...Problem 2.3P:
You can choose to connect either a 4.7-k resistor or a 47-k resistor across a 5-V source. Which will...Problem 2.4P:
A model railroader wants to be able to electrically throw a rail switch Rswitch from two different...Problem 2.6P:
The conductance of a particular semiconductor resistor is 0.05 ms. Find the current through the...Problem 2.7P:
In Figure P2—7 the resistor dissipates 25 mW. Find Rx.Problem 2.9P:
A resistor found in the lab has three orange stripes followed by a gold stripe. An ohmmeter measures...Problem 2.10P:
The iv characteristic of a nonlinear resistor is v=82i+0.17i3. a. Calculate v and p for i=0.5,1,2,5,...Problem 2.11P:
A 100-k resistor has a power rating of 0.25 W. Find the maximum current that can flow through the...Problem 2.12P:
A certain type of film resistor is available with resistance values between 10 and 100M. The maximum...Problem 2.13P:
Figure P2—13 shows the circuit symbol for a class of two-terminal devices called diodes. The iv...Problem 2.14P:
A thermistor is a temperature-sensing element composed of a semiconductor material, which exhibits a...Problem 2.15P:
In Figure P2-15i2=6A and i3=2A. Find i1 and i4.Problem 2.16P:
In Figure P2-16 determine which elements are in series, parallel, or neither. How many different...Problem 2.17P:
For the circuit in Figure P2—17: Identify the nodes and at least two loops. Identify any elements...Problem 2.18P:
In Figure P2-17 i2=30mA and i4=20mA. Find i1 and i3.Problem 2.19P:
For the circuit in Figure P2—19: Identify the nodes and at least five loops in the circuit. Identify...Problem 2.21P:
In many circuits the ground is often the metal case that houses the circuit. Occasionally a failure...Problem 2.22P:
The circuit in figure P2-22 is organized around the three signal lines A, B, and C. Identify the...Problem 2.23P:
Are any of the elements in Figure P2-23 in series or parallel? If so, identify the ones that are....Problem 2.24P:
Are any of the elements in Figure P2-24 in series or parallel? If so, identify the ones that are....Problem 2.25P:
Use the passive sign convention to assign voltage variables consistent with the currents in Figure...Problem 2.26P:
If a wire is connected between nodes B and C in Figure P2—24, what can be said about the voltages...Problem 2.28P:
For the circuit in Figure P2—28, write a complete set of connection and element constraints and then...Problem 2.29P:
For the circuit in Figure P2—29, write a complete set of connection and element constraints, then...Problem 2.30P:
Find vx and ix in Figure P2-30. Compare the results of your answers with those in problem 2-29. What...Problem 2.31P:
A modeler wants to light his model building using miniature grain-of-wheat light bulbs connected in...Problem 2.32P:
Find vx and ix in Figure P2-32.Problem 2.33P:
In Figure P2-33: Assign a voltage and current variable to every element. Use KVL to find the voltage...Problem 2.34P:
Find vO in the circuit of Figure P2-34.Problem 2.35P:
Find the power provided by the source in Figure P2-35.Problem 2.36P:
Figure P2-36 shows a subcircuit connected to the rest of the circuit at four points. Use element and...Problem 2.37P:
In Figure P2-37 ix=0.33mA. Find the value of R.Problem 2.38P:
Figure P2—38 shows a resistor with one terminal connected to ground and the other connected to an...Problem 2.39P:
Find the equivalent resistant REQ in Figure P2-39.Problem 2.40P:
Find the equivalent R EQ in Figure P2-40.Problem 2.41P:
Find the equivalent resistance REQ in Figure P2-41.Problem 2.42P:
Equivalent resistance is defined at a particular pair of terminals. In Figure P2-42, the same...Problem 2.44P:
Find REQ between nodes A and B for each of the circuits in Figure P2—44. What conclusion can you...Problem 2.45P:
Show how the circuit in Figure P2—45 could be connected to achieve a resistance of 100, 200, 150,...Problem 2.46P:
In Figure P2-46 find the equivalent resistance between terminals A-B, A-C, A-D, B-C, B-D, and C-D.Problem 2.47P:
In Figure P2-47 find the equivalent resistance between terminals A-B, A-C, A-D, B-C, B-D, and C-D.Problem 2.49P:
Using no more than four 1-k resistors, show how the following equivalent resistors can be...Problem 2.50P:
Do a source transformation at terminals A and B for each practical source in Figure P2-50.Problem 2.51P:
For each of the circuits in Figure P2-51, find the equivalent practical voltage source at terminals...Problem 2.52P:
In Figure P2-52, the iv characteristic of network N is v+50i=5V. Find the equivalent practical...Problem 2.53P:
Select the value of Rx in Figure P2-53 so that REQ=100k.Problem 2.54P:
Two 10-k potentiometers (a variable resistor whose value between the two ends is 10k and between one...Problem 2.55P:
Select the value of R in Figure P2-55 so that RAB=RL.Problem 2.56P:
What is the range of REQ in Figure P2-56?Problem 2.58P:
Use voltage division in Figure P2-58 to find vx,vy, and vz. Then show that the sum of these voltages...Problem 2.59P:
Use voltage division in Figure P2-59 to obtain an expression for vL in terms of R,RL, and vs.Problem 2.60P:
Use current division in Figure P2-60 to find ix,iy, and iz. Then show that the sum of these currents...Problem 2.61P:
Use current division in Figure P2-61 to find an expression for vL in terms of R, RL, and is.Problem 2.62P:
Find ix,iy, and iz in Figure P2-62.Problem 2.63P:
Find vO in the circuit of Figure P2-63.Problem 2.64P:
You wish to drive a 1-k load from your car battery as shown in Figure P2-64. The load needs 5 V...Problem 2.65P:
Find the range of values of vo in Figure P2-65.Problem 2.66P:
Use current division in the circuit of Figure P2-66 to find Rx so that the voltage out is 3 V....Problem 2.67P:
Figure P2-67 shows a voltage bridge circuit, that is, two voltage dividers in parallel with a source...Problem 2.68P:
A Ideally, a voltmeter has infinite internal resistance and can be placed across any device to read...Problem 2.69P:
Select values for R1,R2, and R3 in Figure P2-69 so that the voltage divider produces the two output...Problem 2.70P:
Select a value of Rx in Figure P2-70 so that vL=4V.Problem 2.71P:
Select a value of Rx in Figure P2-71 so that vL=2V. Repeat for 4 V and 6 V. Caution: Rx must be...Problem 2.72P:
Use circuit reduction to find vx and ix in Figure P2-72.Problem 2.74P:
Use circuit reduction to find vx and ix in Figure P2-74.Problem 2.75P:
Use circuit reduction to find vx,ix, and px in Figure P2-75.Problem 2.76P:
Use circuit reduction to find vx and ix in Figure P2-76.Problem 2.77P:
Use source transformation to find ix in Figure P2-77.Problem 2.78P:
Select a value for Rx so that ix=0A in Figure P2-78.Problem 2.80P:
The current through RL in figure P2-80 is 100mA. Use source transformations to find RL. Validate...Problem 2.81P:
Select Rx so that 50 V is across it in Figure P2-81.Problem 2.82P:
The box in the circuit in Figure P2-82 is a resistor whose value can be anywhere between 8 and 80kQ....Problem 2.88P:
Consider the circuit of Figure P2-88. Use MATLAB to find all of the voltages and currents in the...Problem 2.91IP:
Nonlinear Device Characteristics The circuit in Figure P2-91 is a parallel combination of a 75-...Problem 2.93IP:
Center Tapped Voltage Divider Figure P2-93 shows a voltage divider with the center tap connected to...Problem 2.95IP:
Active Transducer Figure P2-95 shows an active transducer whose resistance R(VT) varies with the...Problem 2.97IP:
Programmable Voltage Divider Figure P2-97 shows a programmable voltage divider in which digital...Book Details
The Analysis and Design of Linear Circuits, 8th Edition provides an introduction to the analysis, design, and evaluation of electric circuits, focusing on developing the learners design intuition. The text emphasizes the use of computers to
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More Editions of This Book
Corresponding editions of this textbook are also available below:
The Analysis And Design Of Linear Circuits
3rd Edition
ISBN: 9780471392521
Analysis And Design Linear Circuits
3rd Edition
ISBN: 9780471209294
Analysis And Design Of Linear Circuits
2nd Edition
ISBN: 9780471365921
Analysis And Design Of Linear Circuits
2nd Edition
ISBN: 9780135352793
Analysis And Design Of Linear Circuits, 2nd Edition
2nd Edition
ISBN: 9780471365945
The Analysis And Design Of Linear Circuits
5th Edition
ISBN: 9780471760955
EBK THE ANALYSIS AND DESIGN OF LINEAR C
8th Edition
ISBN: 9781119140320
ANALYSIS+DESIGN OF LINEAR CIRCUITS(LL)
8th Edition
ISBN: 9781119235385
ANALYSIS+DESIGN OF LINEAR CIRCUITS
9th Edition
ISBN: 9781119634935
ANALYSIS AND DESIGN OF LINEAR CIRCUTS
9th Edition
ISBN: 9781119593140
The Analysis and Design of Linear Circuits, Enhanced eText
9th Edition
ISBN: 9781119596196
EBK THE ANALYSIS AND DESIGN OF LINEAR C
9th Edition
ISBN: 9781119495437
ANALYSIS+DESIGN OF LINEAR CIRCUITS
9th Edition
ISBN: 9781119723424
The Analysis and Design of Linear Circuits
7th Edition
ISBN: 9781118214299
Analysis And Design Of Linear Circuits
7th Edition
ISBN: 9781118065587
EBK THE ANALYSIS AND DESIGN OF LINEAR C
7th Edition
ISBN: 9781118215258
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