دانلود کتاب Simulation-based Labs for Circuit Analysis: Discovering Circuits with Multisim Live and Tinkercad (River Publishers Series in Electronic Materials, Circuits and Devices)

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Cover
Half Title
Series Page
Title Page
Copyright Page
Table of Contents
Preface
List of Figures
List of Tables
List of Abbreviations
Part I: DC Circuits
Chapter 1: Fundamental Circuit Conventions
1.1: Student Learning Outcomes
1.2: Prelab
1.2.1: Passive and active sign conventions
1.2.2: Problem 1
1.2.2.1: Solutions to Problem 1
1.2.3: Problem 2
1.2.3.1: Solutions to Problem 2
1.3: Lab Procedure 1
1.4: Lab Procedure 2
Chapter 2: Ohm’s Law
2.1: Student Learning Outcomes
2.2: Prelab
2.2.1: Problem 1
2.2.1.1: Solutions to Problem 1
2.2.2: Problem 2
2.2.2.1: Solutions to Problem 2
2.3: Lab Procedure 1
2.4: Lab Procedure 2
Chapter 3: Power in DC Circuits
3.1: Student Learning Outcomes
3.2: Prelab
3.2.1: Tellegen’s theorem
3.2.2: Problem 1
3.2.2.1: Solutions to Problem 1
3.2.3: Problem 2
3.2.3.1: Solutions to Problem 2
3.2.4: Problem 3
3.2.4.1: Solutions to Problem 3
3.3: Lab Procedure 1
3.4: Lab Procedure 2
Chapter 4: Series and Parallel Resistors in DC Circuits
4.1: Student Learning Outcomes
4.2: Prelab
4.2.1: Voltage divider
4.2.2: Current divider
4.2.3: Problem 1
4.2.3.1: Solutions to Problem 1
4.2.4: Problem 2
4.2.4.1: Solutions to Problem 2
4.2.5: Problem 3
4.2.6: Solutions to Problem 3
4.3: Lab Procedure 1
4.4: Lab Procedure 2
Chapter 5: Variable Resistors in DC Circuits
5.1: Student Learning Outcomes
5.2: Prelab
5.2.1: Problem 1
5.2.1.1: Solutions to Problem 1
5.2.2: Problem 2
5.2.2.1: Solutions to Problem 2
5.3: Lab Procedure 1
Chapter 6: Superposition Principle in DC Circuits
6.1: Student Learning Outcomes
6.2: Prelab
6.2.1: Problem 1
6.2.1.1: Solutions to Problem 1
6.2.2: Problem 2
6.2.2.1: Solutions to Problem 2
6.3: Lab Procedure 1
6.4: Lab Procedure 2
Chapter 7: Short-circuits and Open-circuits
7.1: Student Learning Outcomes
7.2: Prelab
7.2.1: Problem 1
7.2.1.1: Solutions to Problem 1
7.2.2: Problem 2
7.2.2.1: Solutions to Problem 2
7.2.3: Problem 3
7.2.3.1: Solutions to Problem 3
7.3: Lab Procedure 1
7.4: Lab Procedure 2
Chapter 8: Thevenin’s Theorem and Maximum Power Transfer in DC Circuits
8.1: Student Learning Outcomes
8.2: Prelab
8.2.1: Problem 1
8.2.1.1: Solutions to Problem 1
8.2.2: Problem 2
8.2.2.1: Solutions to Problem 2
8.2.3: Problem 3
8.2.3.1: Solutions to Problem 3
8.3: Lab Procedure 1
8.4: Lab Procedure 2
Chapter 9: Norton’s Theorem in DC Circuits
9.1: Student Learning Outcomes
9.2: Prelab
9.2.1: Problem 1
9.2.1.1: Solutions to Problem 1
9.2.2: Problem 2
9.2.2.1: Solutions to Problem 2
9.2.3: Problem 3
9.2.3.1: Solutions to Problem 3
9.3: Lab Procedure 1
9.4: Lab Procedure 2
Chapter 10: RC Circuits in DC
10.1: Student Learning Outcomes
10.2: Prelab
10.2.1: Problem 1
10.2.1.1: Solutions to Problem 1
10.2.2: Problem 2
10.2.2.1: Solutions to Problem 2
10.2.3: Problem 3
10.2.3.1: Solutions to Problem 3
10.3: Lab Procedure 1
10.4: Lab Procedure 2
Chapter 11: RL Circuits in DC
11.1: Student Learning Outcomes
11.2: Prelab
11.2.1: Problem 1
11.2.1.1: Solutions to Problem 1
11.2.2: Problem 2
11.2.2.1: Solutions to Problem 2
11.2.3: Problem 3
11.2.3.1: Solutions to Problem 3
11.3: Lab Procedure 1
11.4: Lab Procedure 2
Chapter 12: Wheatstone Bridge
12.1: Student Learning Outcomes
12.2: Prelab
12.2.1: Problem 1
12.2.1.1: Solutions to Problem 1
12.2.2: Problem 2
12.2.2.1: Solutions to Problem 2
12.3: Lab Procedure 1
Part II: Operational Amplifier Circuits
Chapter 13: Amplifier Fundamentals
13.1: Student Learning Outcomes
13.2: Prelab
13.2.1: Voltage amplifier
13.2.2: Current amplifier
13.2.3: Problem 1
13.2.3.1: Solutions to Problem 1
13.2.4: Problem 2
13.2.4.1: Solutions to Problem 2
13.3: Lab Procedure 1
Chapter 14: Saturation of Operational Amplifiers
14.1: Student Learning Outcomes
14.2: Prelab
14.2.1: Problem 1
14.2.1.1: Solutions to Problem 1
14.2.2: Problem 2
14.2.2.1: Solutions to Problem 2
14.2.3: Problem 3
14.2.3.1: Solutions to Problem 3
14.3: Lab Procedure 1
Chapter 15: Noninverting Operational Amplifier Configuration
15.1: Student Learning Outcomes
15.2: Prelab
15.2.1: The voltage follower
15.2.2: Problem 1
15.2.2.1: Solutions to Problem 1
15.2.3: Problem 2
15.2.3.1: Solutions to Problem 2
15.3: Lab Procedure 1
15.4: Lab Procedure 2
Chapter 16: Inverting Operational Amplifier Configuration
16.1: Student Learning Outcomes
16.2: Prelab
16.2.1: Problem 1
16.2.1.1: Solutions to Problem 1
16.2.2: Problem 2
16.2.2.1: Solutions to Problem 2
16.3: Lab Procedure 1
16.4: Lab Procedure 2
Chapter 17: Measuring the Slew Rate of Operational Amplifiers
17.1: Student Learning Outcomes
17.2: Prelab
17.2.1: Problem 1
17.2.1.1: Solutions to Problem
17.3: Lab Procedure 1
Part III: AC Circuits
Chapter 18: Measurement of Parameters and Phase Differences of Sinusoids
18.1: Student Learning Outcomes
18.2: Prelab
18.2.1: Mean value
18.2.2: Root mean square, or rms
18.2.3: Phase difference between sinusoids
18.2.4: Problem 1
18.2.4.1: Solutions to Problem 1
18.2.5: Problem 2
18.2.5.1: Solutions to Problem 2
18.3: Lab Procedure 1
18.3.1: Lab Procedure 2
Chapter 19: Capacitive Reactance, Inductive Reactance, and Impedance
19.1: Student Learning Outcomes
19.2: Prelab
19.2.1: Problem 1
19.2.1.1: Solutions to Problem 1
19.2.2: Problem 2
19.2.2.1: Solutions to Problem 2
19.3: Lab Procedure 1
19.4: Lab Procedure 2
Chapter 20 Nonsinusoidal Waveforms
20.1: Student Learning Outcomes
20.2: Prelab
20.2.1: Square wave
20.2.2: Triangular waveform
20.2.3: Sine wave with a superimposed DC voltage
20.2.4: Problem 1
20.2.4.1: Solutions to Problem 1
20.2.5: Problem 2
20.2.5.1: Solutions to Problem 2
20.2.6: Problem 3
20.2.6.1: Solutions to Problem 3
20.3: Lab Procedure 1
20.4: Lab Procedure 2
21: Resistive Circuits with AC Sources
21.1: Student Learning Outcomes
21.2: Prelab
21.2.1: Problem 1
21.2.1.1: Solutions to Problem 1
21.2.2: Problem 2
21.2.2.1: Solutions to Problem 2
21.3: Lab Procedure 1
21.4: Lab Procedure 2
Chapter 22: Purely Capacitive Circuits with Sinusoidal and Non-sinusoidal Sources
22.1: Student Learning Outcomes
22.2: Prelab
22.2.1: Problem 1
22.2.1.1: Solutions to Problem 1
22.2.2: Problem 2
22.2.2.1: Solutions to Problem 2
22.3: Lab Procedure 1
22.4: Lab Procedure 2
Chapter 23: Purely Inductive Circuits with Sinusoidal and Non-sinusoidal Sources
23.1: Student Learning Outcomes
23.2: Prelab
23.2.1: Problem 1
23.2.1.1: Solutions to Problem 1
23.2.2: Problem 2
23.2.2.1: Solutions to Problem 2
23.3: Lab Procedure 1
23.4: Lab Procedure 2
Chapter 24: Sinusoidal Steady-state Analysis in the Phasor Domain
24.1: Student Learning Outcomes
24.2: Prelab
24.2.1: Resistor
24.2.2: Inductor
24.2.3: Capacitor
24.2.4: Problem 1
24.2.4.1: Solutions to Problem 1
24.2.5: Problem 2
24.2.5.1: Solutions to Problem 2
24.3: Lab Procedure 1
24.4: Lab Procedure 2
Chapter 25: Series Combination AC Circuits
25.1: Student Learning Outcomes
25.2: Prelab
25.2.1: Problem 1
25.2.1.1: Solutions to Problem 1
25.2.2: Problem 2
25.2.2.1: Solutions to Problem 2
25.3: Lab Procedure 1
25.4: Lab Procedure 2
Chapter 26: Parallel Combination AC Circuits
26.1: Student Learning Outcomes
26.2: Prelab
26.2.1: Problem 1
26.2.1.1: Solutions to Problem 1
26.2.2: Problem 2
26.2.2.1: Solutions to Problem 2
26.2.3: Problem 3
26.2.3.1: Solutions to Problem 3
26.3: Lab Procedure 1
26.4: Lab Procedure 2
Chapter 27: Series–Parallel AC Circuits
27.1: Student Learning Outcomes
27.2: Prelab
27.2.1: Problem 1
27.2.1.1: Solutions to Problem 1
27.2.2: Problem 2
27.2.2.1: Solutions to Problem 2
27.2.3: Problem 3
27.2.3.1: Solutions to Problem 3
27.3: Lab Procedure 1
27.4: Lab Procedure 2
Chapter 28: Superposition Principle in AC circuits
28.1: Student Learning Outcomes
28.2: Prelab
28.2.1: Problem 1
28.2.1.1: Solutions to Problem 1
28.2.2: Problem 2
28.2.2.1: Solutions to Problem 2
28.2.3: Problem 3
28.2.3.1: Solutions to problem 3
28.3: Lab Procedure 1
28.4: Lab Procedure 2
Chapter 29: Thevenin’s Theorem and Maximum Power Transfer in AC
29.1: Student Learning Outcomes
29.2: Prelab
29.2.1: Problem 1
29.2.1.1: Solutions to Problem 1
29.2.2: Problem 2
29.2.2.1: Solutions to Problem 2
29.2.3: Problem 3
29.2.3.1: Solutions to Problem 3
29.3: Lab Procedure 1
29.4: Lab Procedure 2
Chapter 30 Series Resonant Circuits
30.1: Student Learning Outcomes
30.2: Prelab
30.2.1: Problem 1
30.2.1.1: Solutions to Problem 1
30.2.2: Problem 2
30.2.2.1: Solutions to Problem 2
30.2.3: Problem 3
30.2.3.1: Solutions to Problem 3
30.3: Lab Procedure 1
30.4: Lab Procedure 2
Chapter 31: Parallel Resonant Circuits
31.1: Student Learning Outcomes
31.2: Prelab
31.2.1: Practical inductor
31.2.2: Problem 1
31.2.2.1: Solutions to Problem 1
31.2.3: Problem 2
31.2.3.1: Solutions to Problem 2
31.3: Lab Procedure 1
31.4: Lab Procedure 2
Chapter 32: Low-pass Filters
32.1: Student Learning Outcomes
32.2: Prelab
32.2.1: Low-pass RC filter
32.2.2: Low-pass RL filter
32.2.3: Cutoff frequency fb
32.2.4: Decibel (dB)
32.2.5: Problem 1
32.2.5.1: Solutions to problem 1
32.2.6: Problem 2
32.2.6.1: Solutions to Problem 2
32.3: Lab Procedure 1
32.4: Lab Procedure 2
Chapter 33: High-pass Filters
33.1: Student Learning Outcomes
33.2: Prelab
33.2.1: High-pass RC filter
33.2.2: High-pass RL filter
33.2.3: Decibel (dB)
33.2.4: Problem 1
33.2.4.1: Solutions to Problem 1
33.2.5: Problem 2
33.2.5.1: Solutions to Problem 2
33.3: Lab Procedure 1
33.4: Lab Procedure 2
Chapter 34: The Transformer and the Impedance Matching
34.1: Student Learning Outcomes
34.2: Prelab
34.2.1: Problem 1
34.2.1.1: Solutions to Problem 1
34.2.2: Problem 2
34.2.2.1: Solutions to Problem 2
34.2.3: Problem 3
34.2.3.1: Solutions to Problem 3
34.3: Lab Procedure 1
34.4: Lab Procedure 2
Appendix A: Complex Numbers, Sinewaves, and Phasors
A.1: Student Learning Outcomes
A.2: Complex Numbers
A.3: Symbolic Method
A.4: Linear Combination of Sinusoids in the Phasor Domain
A.4.1: Problem 1
A.4.1.1: Solution to Problem 1
A.5: Derivation and Integration of Sinusoids in the Phasor Domain
A.6: Phasor Relationships in a Circuit
A.6.1: Resistors
A.6.2: Inductors
A.6.3: Capacitors
A.7: Complex Impedance of a Circuit Element
A.8: MATLAB Code
Index
About the Author