**Last Revised: 2020-08-02**

The following is a link to the full video:

- https://youtu.be/jApBXeFQTMk [duration: 00:23:12]

- 00:00: [intro] Unit: Introduction
- 00:18: [intro] Signals
- 01:41: [intro] Classification of Signals
- 06:01: [intro] Graphical Representation of Signals
- 07:09: [intro] Systems
- 07:44: [intro] Classification of Systems
- 09:19: [intro] Signal Processing Systems
- 11:50: [intro] Communication Systems
- 14:01: [intro] Control Systems
- 17:52: [intro] Why Study Signals and Systems?
- 20:03: [intro] System Failure Example: Tacoma Narrows Bridge
- 22:41: [intro] System Failure Example: Tacoma Narrows Bridge (Continued)

The following is a link to the full video:

- https://youtu.be/8_KKaTEUZB0 [duration: 00:45:42]

- 00:00: [complex] Unit: Complex Analysis
- 00:26: [complex] Complex Numbers
- 01:45: [complex] Complex Numbers (Continued)
- 03:07: [complex] Geometric Interpretation of Cartesian and Polar Forms
- 03:58: [complex] The arctan Function
- 07:14: [complex] The atan2 Function
- 08:32: [complex] Conversion Between Cartesian and Polar Form
- 09:46: [complex] Properties of Complex Numbers
- 11:02: [complex] Conjugation
- 12:08: [complex] Properties of Conjugation
- 13:37: [complex] Addition
- 14:38: [complex] Multiplication
- 15:44: [complex] Division
- 17:47: [complex] Properties of the Magnitude and Argument
- 18:56: [complex] Euler's Relation and De Moivre's Theorem
- 20:06: [complex] Roots of Complex Numbers
- 21:05: [complex] Quadratic Formula
- 22:04: [complex] Complex Functions
- 23:35: [complex] Continuity
- 25:11: [complex] Differentiability
- 26:40: [complex] Open Disks
- 27:53: [complex] Analyticity
- 29:51: [complex] Example A.10
- 30:27: [complex] Example A.11
- 31:25: [complex] Zeros and Singularities
- 35:20: [complex] Zeros and Poles of a Rational Function
- 39:00: [complex] Example A.12

The following is a link to the full video:

- https://youtu.be/0950-nR1KqQ [duration: 00:00:26]

- 00:00: [prelim] Unit: Preliminaries

The following is a link to the full video:

- https://youtu.be/LREmWSf5v3k [duration: 00:33:33]

- 00:00: [prelim] Section: Functions, Sequences, System Operators, and Transforms
- 00:11: [prelim] Sets
- 01:07: [prelim] Notation for Intervals on the Real Line
- 03:41: [prelim] Mappings
- 06:19: [prelim] Functions
- 09:59: [prelim] Example 2.2
- 15:58: [prelim] Sequences
- 19:42: [prelim] System Operators
- 22:48: [prelim] Remarks on Operator Notation for CT Systems
- 28:21: [prelim] Example 2.6
- 30:08: [prelim] Example 2.7
- 31:38: [prelim] Transforms
- 32:49: [prelim] Examples of Transforms

The following is a link to the full video:

- https://youtu.be/iWDh_nhVEII [duration: 00:08:59]

- 00:00: [prelim] Section: Properties of Signals
- 00:10: [prelim] Even Symmetry
- 01:53: [prelim] Odd Symmetry
- 03:59: [prelim] Conjugate Symmetry
- 05:04: [prelim] Periodicity
- 06:46: [prelim] Periodicity (Continued 1)
- 07:49: [prelim] Periodicity (Continued 2)

The following is a link to the full video:

- https://youtu.be/9wJGqOaEbWg [duration: 00:00:23]

- 00:00: [ctsigsys] Unit: Continuous-Time (CT) Signals and Systems

The following is a link to the full video:

- https://youtu.be/dtfMWDJPqEs [duration: 00:38:00]

- 00:00: [ctsigsys] Section: Independent- and Dependent-Variable Transformations
- 00:18: [ctsigsys] Time Shifting (Translation)
- 01:24: [ctsigsys] Time Shifting (Translation): Example
- 03:17: [ctsigsys] Time Reversal (Reflection)
- 04:45: [ctsigsys] Time Compression/Expansion (Dilation)
- 06:02: [ctsigsys] Time Compression/Expansion (Dilation): Example
- 08:04: [ctsigsys] Time Scaling (Dilation/Reflection)
- 10:21: [ctsigsys] Time Scaling (Dilation/Reflection): Example
- 11:57: [ctsigsys] Combined Time Scaling and Time Shifting
- 19:36: [ctsigsys] Exercise 3.3
- 25:55: [ctsigsys] Combined Time Scaling and Time Shifting: Example
- 28:26: [ctsigsys] Two Perspectives on Independent-Variable Transformations
- 31:14: [ctsigsys] Demonstration: Two Views of Time-Shifting Transformations
- 33:26: [ctsigsys] Amplitude Scaling
- 35:19: [ctsigsys] Amplitude Shifting
- 36:11: [ctsigsys] Combined Amplitude Scaling and Amplitude Shifting

The following is a link to the full video:

- https://youtu.be/PRD3WoWrxa4 [duration: 00:26:30]

- 00:00: [ctsigsys] Section: Properties of Functions
- 00:11: [ctsigsys] Symmetry and Addition/Multiplication
- 02:28: [ctsigsys] Decomposition of a Function into Even and Odd Parts
- 04:48: [ctsigsys] Theorem 3.1
- 08:17: [ctsigsys] Sum of Periodic Functions
- 11:50: [ctsigsys] Example 3.2
- 14:00: [ctsigsys] Example 3.4
- 17:17: [ctsigsys] Right-Sided Functions
- 19:49: [ctsigsys] Left-Sided Functions
- 21:54: [ctsigsys] Finite-Duration and Two-Sided Functions
- 23:32: [ctsigsys] Bounded Functions
- 25:14: [ctsigsys] Energy and Power of a Function

The following is a link to the full video:

- https://youtu.be/qVurOxA8oYM [duration: 00:51:59]

- 00:00: [ctsigsys] Section: Elementary Functions
- 00:17: [ctsigsys] Real Sinusoidal Functions
- 00:49: [ctsigsys] Complex Exponential Functions
- 01:23: [ctsigsys] Real Exponential Functions
- 02:35: [ctsigsys] Complex Sinusoidal Functions
- 03:49: [ctsigsys] Complex Sinusoidal Functions (Continued)
- 04:15: [ctsigsys] Plots of Complex Sinusoidal Functions
- 05:14: [ctsigsys] General Complex Exponential Functions
- 07:00: [ctsigsys] General Complex Exponential Functions (Continued)
- 07:44: [ctsigsys] Unit-Step Function
- 09:08: [ctsigsys] Signum Function
- 09:50: [ctsigsys] Rectangular Function
- 10:59: [ctsigsys] Cardinal Sine Function
- 12:55: [ctsigsys] Unit-Impulse Function
- 17:25: [ctsigsys] Unit-Impulse Function as a Limit
- 19:55: [ctsigsys] Properties of the Unit-Impulse Function
- 22:17: [ctsigsys] Figure: Graphical Interpretation of Equivalence Property
- 24:23: [ctsigsys] Example 3.8
- 25:55: [ctsigsys] Example 3.9
- 29:34: [ctsigsys] Example 3.10
- 36:30: [ctsigsys] Representing a Rectangular Pulse (Using Unit-Step Functions)
- 39:08: [ctsigsys] Example 3.11
- 43:06: [ctsigsys] Representing Functions Using Unit-Step Functions
- 44:21: [ctsigsys] Example 3.12

The following is a link to the full video:

- https://youtu.be/InFEzaTvC1o [duration: 00:05:40]

- 00:00: [ctsigsys] Section: Continuous-Time (CT) Systems
- 00:13: [ctsigsys] CT Systems
- 02:36: [ctsigsys] Block Diagram Representations
- 02:57: [ctsigsys] Interconnection of Systems

The following is a link to the full video:

- https://youtu.be/C53uS3lkeJQ [duration: 01:14:19]

- 00:00: [ctsigsys] Section: Properties of (CT) Systems
- 00:11: [ctsigsys] Memory
- 02:45: [ctsigsys] Memory (Continued)
- 04:42: [ctsigsys] Example 3.15
- 06:09: [ctsigsys] Example 3.16
- 08:02: [ctsigsys] Causality
- 11:14: [ctsigsys] Causality (Continued)
- 12:58: [ctsigsys] Example 3.19
- 14:36: [ctsigsys] Example 3.20
- 16:28: [ctsigsys] Invertibility
- 20:53: [ctsigsys] Invertibility (Continued)
- 22:39: [ctsigsys] Example 3.23
- 27:28: [ctsigsys] Example 3.24
- 31:22: [ctsigsys] Bounded-Input Bounded-Output (BIBO) Stability
- 34:57: [ctsigsys] Example 3.27
- 37:46: [ctsigsys] Example 3.28
- 40:37: [ctsigsys] Time Invariance (TI)
- 43:30: [ctsigsys] Time Invariance (Continued)
- 44:59: [ctsigsys] Example 3.32
- 47:28: [ctsigsys] Example 3.33
- 51:27: [ctsigsys] Additivity, Homogeneity, and Linearity
- 56:03: [ctsigsys] Additivity, Homogeneity, and Linearity (Continued 1)
- 58:38: [ctsigsys] Additivity, Homogeneity, and Linearity (Continued 2)
- 01:00:21: [ctsigsys] Example 3.35
- 01:03:58: [ctsigsys] Example 3.36
- 01:08:59: [ctsigsys] Eigenfunctions of Systems
- 01:10:44: [ctsigsys] Example 3.41

The following is a link to the full video:

- https://youtu.be/oOl2SX3Fzw8 [duration: 00:02:24]

- 00:00: [ctltisys] Unit: Continuous-Time Linear Time-Invariant (LTI) Systems
- 00:52: [ctltisys] Why Linear Time-Invariant (LTI) Systems?

The following is a link to the full video:

- https://youtu.be/q2n6l3-gi_c [duration: 00:57:49]

- 00:00: [ctltisys] Section: Convolution
- 00:15: [ctltisys] CT Convolution
- 03:32: [ctltisys] Example X.4.1
- 10:46: [ctltisys] Practical Convolution Computation
- 14:25: [ctltisys] Example 4.1
- 34:26: [ctltisys] Exercise 4.18(u)
- 46:21: [ctltisys] Properties of Convolution
- 49:03: [ctltisys] Theorem 4.1
- 56:06: [ctltisys] Representation of Functions Using Impulses

The following is a link to the full video:

- https://youtu.be/fnH51-gRiqg [duration: 00:25:29]

- 00:00: [ctltisys] Section: Convolution and LTI Systems
- 00:19: [ctltisys] Impulse Response
- 03:03: [ctltisys] Theorem 4.5
- 07:14: [ctltisys] Example 4.5
- 10:52: [ctltisys] Step Response
- 12:52: [ctltisys] Block Diagram Representation of LTI Systems
- 13:31: [ctltisys] Interconnection of LTI Systems
- 16:31: [ctltisys] Example 4.7

The following is a link to the full video:

- https://youtu.be/cOhpZyxyDW8 [duration: 00:46:04]

- 00:00: [ctltisys] Section: Properties of LTI Systems
- 00:35: [ctltisys] Memory
- 04:03: [ctltisys] Example 4.8
- 06:21: [ctltisys] Example 4.9
- 07:14: [ctltisys] Causality
- 09:32: [ctltisys] Example 4.10
- 12:09: [ctltisys] Example 4.11
- 14:29: [ctltisys] Invertibility
- 16:39: [ctltisys] Example 4.12
- 20:12: [ctltisys] BIBO Stability
- 21:56: [ctltisys] Example 4.14
- 27:32: [ctltisys] Example 4.15
- 32:22: [ctltisys] Eigenfunctions of LTI Systems
- 35:10: [ctltisys] Representations of Functions Using Eigenfunctions
- 38:07: [ctltisys] Example: Corollary of Theorem 4.12
- 41:29: [ctltisys] Example 4.16

The following is a link to the full video:

- https://youtu.be/5pliTVUox0I [duration: 00:04:54]

- 00:00: Interlude

The following is a link to the full video:

- https://youtu.be/YxQ2Bi3Z4Iw [duration: 00:01:33]

The following is a link to the full video:

- https://youtu.be/u55IQ5kSGoM [duration: 00:19:23]

- 00:00: [ctfs] Section: Fourier Series
- 00:16: [ctfs] Harmonically-Related Complex Sinusoids
- 01:42: [ctfs] CT Fourier Series
- 03:51: [ctfs] CT Fourier Series (Continued)
- 06:37: [ctfs] Example 5.1
- 13:28: [ctfs] Example 5.3

The following is a link to the full video:

- https://youtu.be/Vrf1Q93-JFM [duration: 00:28:16]

- 00:00: [ctfs] Section: Convergence Properties of Fourier Series
- 00:32: [ctfs] Remarks on Equality of Functions
- 06:06: [ctfs] Convergence of Fourier Series
- 08:48: [ctfs] Convergence of Fourier Series (Continued)
- 10:38: [ctfs] Convergence of Fourier Series: Continuous Case
- 11:40: [ctfs] Convergence of Fourier Series: Finite-Energy Case
- 12:55: [ctfs] Dirichlet Conditions
- 17:21: [ctfs] Convergence of Fourier Series: Dirichlet Case
- 18:50: [ctfs] Example 5.6
- 22:14: [ctfs] Gibbs Phenomenon
- 23:28: [ctfs] Gibbs Phenomenon: Periodic Square Wave Example
- 23:41: [ctfs] Gibbs Phenomenon: Periodic Square Wave Example [Annotated]

The following is a link to the full video:

- https://youtu.be/WRCjY_pPAZE [duration: 00:10:15]

- 00:00: [ctfs] Section: Properties of Fourier Series
- 00:14: [ctfs] Properties of (CT) Fourier Series
- 00:33: [ctfs] Linearity
- 01:25: [ctfs] Even and Odd Symmetry
- 02:07: [ctfs] Real Functions
- 04:36: [ctfs] Trigonometric Forms of a Fourier Series
- 08:07: [ctfs] Other Properties of Fourier Series
- 09:20: [ctfs] Zeroth Coefficient of Fourier Series

The following is a link to the full video:

- https://youtu.be/FDyi1EUAC9M [duration: 00:22:08]

- 00:00: [ctfs] Section: Fourier Series and Frequency Spectra
- 00:20: [ctfs] A New Perspective on Functions: The Frequency Domain
- 01:50: [ctfs] Motivating Example
- 04:53: [ctfs] Motivating Example (Continued)
- 07:01: [ctfs] Fourier Series and Frequency Spectra
- 10:10: [ctfs] Fourier Series and Frequency Spectra (Continued)
- 12:20: [ctfs] Example 5.7
- 20:20: [ctfs] Frequency Spectra of Real Functions

The following is a link to the full video:

- https://youtu.be/Vhwaw0NdCDM [duration: 00:25:47]

- 00:00: [ctfs] Section: Fourier Series and LTI Systems
- 00:22: [ctfs] Frequency Response
- 03:26: [ctfs] Fourier Series and LTI Systems
- 05:24: [ctfs] Example 5.9
- 09:27: [ctfs] Filtering
- 10:42: [ctfs] Ideal Lowpass Filter
- 12:05: [ctfs] Ideal Highpass Filter
- 13:26: [ctfs] Ideal Bandpass Filter
- 15:20: [ctfs] Example 5.10

The following is a link to the full video:

- https://youtu.be/uqnNXbisNgA [duration: 00:01:40]

The following is a link to the full video:

- https://youtu.be/3ghUBR8AHxg [duration: 00:12:45]

- 00:00: [ctft] Section: Fourier Transform
- 00:13: [ctft] Development of the Fourier Transform [Aperiodic Case]
- 01:44: [ctft] Development of the Fourier Transform [Aperiodic Case] (Continued)
- 03:58: [ctft] Generalized Fourier Transform
- 05:33: [ctft] CT Fourier Transform (CTFT)
- 07:12: [ctft] Example 6.1
- 09:43: [ctft] Example 6.3

The following is a link to the full video:

- https://youtu.be/hWc6Gkscx0A [duration: 00:13:45]

- 00:00: [ctft] Section: Convergence Properties of the Fourier Transform
- 00:32: [ctft] Convergence of the Fourier Transform
- 02:26: [ctft] Convergence of the Fourier Transform: Finite-Energy Case
- 04:14: [ctft] Dirichlet Conditions
- 08:45: [ctft] Convergence of the Fourier Transform: Dirichlet Case
- 10:45: [ctft] Example 6.6

The following is a link to the full video:

- https://youtu.be/laIz9zjetzc [duration: 01:22:02]

- 00:00: [ctft] Section: Properties of the Fourier Transform
- 00:19: [ctft] Properties of the (CT) Fourier Transform
- 00:36: [ctft] Properties of the (CT) Fourier Transform (Continued)
- 00:52: [ctft] (CT) Fourier Transform Pairs
- 02:08: [ctft] Linearity
- 03:09: [ctft] Example 6.7
- 05:33: [ctft] Time-Domain Shifting (Translation)
- 06:24: [ctft] Example 6.9
- 11:37: [ctft] Frequency-Domain Shifting (Modulation)
- 12:24: [ctft] Example 6.10
- 17:40: [ctft] Time- and Frequency-Domain Scaling (Dilation)
- 18:42: [ctft] Example 6.11
- 23:01: [ctft] Conjugation
- 23:53: [ctft] Example 6.12
- 24:56: [ctft] Duality
- 30:35: [ctft] Example 6.13
- 33:15: [ctft] Time-Domain Convolution
- 34:35: [ctft] Example 6.14
- 37:34: [ctft] Time-Domain Multiplication
- 39:58: [ctft] Example 6.15
- 45:09: [ctft] Time-Domain Differentiation
- 46:48: [ctft] Example 6.16
- 48:26: [ctft] Frequency-Domain Differentiation
- 49:15: [ctft] Example 6.17
- 51:20: [ctft] Time-Domain Integration
- 53:00: [ctft] Example 6.18
- 55:22: [ctft] Parseval's Relation
- 56:54: [ctft] Example 6.19
- 59:12: [ctft] Even/Odd Symmetry
- 59:53: [ctft] Real Functions
- 01:01:33: [ctft] More Fourier Transforms
- 01:01:47: [ctft] Example 6.26
- 01:07:21: [ctft] Exercise 6.5(g)
- 01:16:00: [ctft] Exercise 6.2(j)

The following is a link to the full video:

- https://youtu.be/oh1MA8axvtI [duration: 00:12:55]

- 00:00: [ctft] Section: Fourier Transform of Periodic Functions
- 00:25: [ctft] Fourier Transform of Periodic Functions
- 03:21: [ctft] Fourier Transform of Periodic Functions (Continued)
- 05:08: [ctft] Example 6.20
- 07:03: [ctft] Example 6.21
- 10:00: [ctft] Example 6.24

The following is a link to the full video:

- https://youtu.be/1JI9Qs3vbJA [duration: 00:19:03]

- 00:00: [ctft] Section: Fourier Transform and Frequency Spectra of Functions
- 00:21: [ctft] The Frequency-Domain Perspective on Functions
- 02:25: [ctft] Fourier Transform and Frequency Spectra
- 04:40: [ctft] Fourier Transform and Frequency Spectra (Continued 1)
- 05:55: [ctft] Fourier Transform and Frequency Spectra (Continued 2)
- 08:26: [ctft] Example 6.30
- 13:31: [ctft] Frequency Spectra of Real Functions
- 15:03: [ctft] Bandwidth

The following is a link to the full video:

- https://youtu.be/zf9uo2wk8pw [duration: 00:15:42]

- 00:00: [ctft] Section: Fourier Transform and LTI Systems
- 00:35: [ctft] Frequency Response of LTI Systems
- 02:35: [ctft] Frequency Response of LTI Systems (Continued 1)
- 04:08: [ctft] Frequency Response of LTI Systems (Continued 2)
- 04:53: [ctft] Block Diagram Representations of LTI Systems
- 05:49: [ctft] Interconnection of LTI Systems
- 07:37: [ctft] LTI Systems and Differential Equations
- 09:19: [ctft] Example 6.34
- 12:44: [ctft] Example 6.35

The following is a link to the full video:

- https://youtu.be/tfEhqrCDeJ0 [duration: 00:06:26]

- 00:00: [ctft] Section: Application: Filtering
- 00:19: [ctft] Filtering
- 01:31: [ctft] Ideal Lowpass Filter
- 01:33: [ctft] Ideal Highpass Filter
- 01:35: [ctft] Ideal Bandpass Filter
- 01:48: [ctft] Example 6.38

The following is a link to the full video:

- https://youtu.be/LTs-O4k9OpQ [duration: 00:17:50]

- 00:00: [ctft] Section: Application: Circuit Analysis
- 00:19: [ctft] Electronic Circuits
- 02:00: [ctft] Resistors
- 03:05: [ctft] Inductors
- 04:24: [ctft] Capacitors
- 05:52: [ctft] Circuit Analysis with the Fourier Transform
- 07:46: [ctft] Example 6.40

The following is a link to the full video:

- https://youtu.be/Ua_H1OiZL-c [duration: 00:28:55]

- 00:00: [ctft] Section: Application: Amplitude Modulation (AM)
- 00:46: [ctft] Motivation for Amplitude Modulation (AM)
- 04:16: [ctft] Trivial Amplitude Modulation (AM) System
- 09:21: [ctft] Trivial Amplitude Modulation (AM) System: Example
- 10:06: [ctft] Double-Sideband Suppressed-Carrier (DSB-SC) AM
- 12:58: [ctft] Example: Analysis of DSB-SC AM — Transmitter
- 16:14: [ctft] Example: Analysis of DSB-SC AM — Receiver
- 21:13: [ctft] Example: Analysis of DSB-SC AM — Complete System
- 24:19: [ctft] Example: Analysis of DSB-SC AM — Spectra
- 26:46: [ctft] Single-Sideband Suppressed-Carrier (SSB-SC) AM
- 27:48: [ctft] SSB-SC AM: Example

The following is a link to the full video:

- https://youtu.be/GkOrtV2BkZ8 [duration: 00:33:16]

- 00:00: [ctft] Section: Application: Sampling and Interpolation
- 00:31: [ctft] Sampling and Interpolation
- 02:19: [ctft] Periodic Sampling
- 03:35: [ctft] Invertibility of Sampling
- 06:49: [ctft] Model of Sampling
- 09:16: [ctft] Model of Sampling: Various Signals
- 10:41: [ctft] Model of Sampling: Invertibility of Sampling Revisited
- 13:12: [ctft] Model of Sampling: Characterization
- 15:15: [ctft] Analysis of Sampling — Multiplication by a Periodic Impulse Train (Part 1)
- 16:37: [ctft] Analysis of Sampling — Fourier Series for a Periodic Impulse Train
- 18:59: [ctft] Analysis of Sampling — Multiplication by a Periodic Impulse Train (Part 2)
- 20:15: [ctft] Model of Sampling: Aliasing
- 22:34: [ctft] Model of Sampling: Aliasing (Continued)
- 26:38: [ctft] Model of Interpolation
- 28:43: [ctft] Sampling Theorem
- 30:33: [ctft] Example 6.41

The following is a link to the full video:

- https://youtu.be/wgTXbvhSgnk [duration: 00:12:49]

- 00:00: [pfe] Unit: Partial Fraction Expansions (PFEs)
- 00:10: [pfe] Motivation for PFEs
- 00:55: [pfe] Strictly-Proper Rational Functions
- 01:53: [pfe] Partial Fraction Expansions (PFEs) [CT and DT Contexts]
- 03:28: [pfe] Simple-Pole Case [CT and DT Contexts]
- 04:39: [pfe] Example B.1
- 07:13: [pfe] Repeated-Pole Case [CT and DT Contexts]
- 09:24: [pfe] Example B.2

The following is a link to the full video:

- https://youtu.be/uVCVrZOIl9s [duration: 00:02:49]

- 00:00: [lt] Unit: Laplace Transform (LT)
- 00:32: [lt] Motivation Behind the Laplace Transform
- 01:35: [lt] Motivation Behind the Laplace Transform (Continued)

The following is a link to the full video:

- https://youtu.be/UOeBiWrAfDs [duration: 00:18:20]

- 00:00: [lt] Section: Laplace Transform
- 00:15: [lt] (Bilateral) Laplace Transform
- 02:07: [lt] Bilateral and Unilateral Laplace Transforms
- 03:18: [lt] Relationship Between Laplace and Fourier Transforms
- 06:22: [lt] Derivation: LT FT Relationship (Special Case)
- 07:40: [lt] Derivation: LT FT Relationship (General Case)
- 08:54: [lt] Laplace Transform Examples
- 09:08: [lt] Example 7.3
- 13:36: [lt] Example 7.4

The following is a link to the full video:

- https://youtu.be/DoaZUx55OYw [duration: 00:23:29]

- 00:00: [lt] Section: Region of Convergence (ROC)
- 00:26: [lt] Left-Half Plane (LHP)
- 01:21: [lt] Right-Half Plane (RHP)
- 02:08: [lt] Intersection of Sets
- 02:49: [lt] Adding a Scalar to a Set
- 03:45: [lt] Multiplying a Set by a Scalar
- 05:22: [lt] Region of Convergence (ROC)
- 06:06: [lt] ROC Property 1: General Form
- 07:23: [lt] ROC Property 2: Rational Laplace Transforms
- 08:38: [lt] ROC Property 3: Finite-Duration Functions
- 09:38: [lt] ROC Property 4: Right-Sided Functions
- 10:56: [lt] ROC Property 5: Left-Sided Functions
- 12:13: [lt] ROC Property 6: Two-Sided Functions
- 13:17: [lt] ROC Property 7: More on Rational Laplace Transforms
- 15:20: [lt] General Form of the ROC
- 17:11: [lt] Example 7.7

The following is a link to the full video:

- https://youtu.be/qld0TLDFaxc [duration: 01:00:16]

- 00:00: [lt] Section: Properties of the Laplace Transform
- 00:21: [lt] Properties of the Laplace Transform
- 00:39: [lt] Laplace Transform Pairs
- 02:34: [lt] Linearity
- 05:00: [lt] Example 7.8
- 09:57: [lt] Example 7.9
- 14:41: [lt] Time-Domain Shifting
- 15:42: [lt] Example 7.10
- 17:16: [lt] Laplace-Domain Shifting
- 18:56: [lt] Example 7.11
- 22:37: [lt] Time-Domain/Laplace-Domain Scaling
- 24:31: [lt] Example 7.12
- 28:13: [lt] Conjugation
- 29:14: [lt] Example 7.13
- 33:07: [lt] Time-Domain Convolution
- 35:22: [lt] Example 7.14
- 37:48: [lt] Time-Domain Differentiation
- 40:16: [lt] Example 7.15
- 41:43: [lt] Laplace-Domain Differentiation
- 42:37: [lt] Example 7.16
- 44:29: [lt] Time-Domain Integration
- 46:56: [lt] Example 7.17
- 49:13: [lt] Initial Value Theorem
- 51:23: [lt] Final Value Theorem
- 53:36: [lt] Example 7.18
- 55:26: [lt] More Laplace Transform Examples
- 55:42: [lt] Example 7.19

The following is a link to the full video:

- https://youtu.be/yW0nCwrwaCQ [duration: 00:20:17]

- 00:00: [lt] Section: Determination of Inverse Laplace Transform
- 00:10: [lt] Finding Inverse Laplace Transform
- 01:18: [lt] Example 7.27
- 09:55: [lt] Example 7.28

The following is a link to the full video:

- https://youtu.be/MWZV3c6TzJI [duration: 00:33:11]

- 00:00: [lt] Section: Laplace Transform and LTI Systems
- 00:37: [lt] System Function of LTI Systems
- 03:08: [lt] Block Diagram Representations of LTI Systems
- 03:58: [lt] Interconnection of LTI Systems
- 05:47: [lt] Causality
- 09:14: [lt] Example 7.31
- 12:31: [lt] BIBO Stability
- 15:22: [lt] Example 7.32
- 17:24: [lt] Example 7.33
- 19:24: [lt] Example 7.34
- 23:38: [lt] Invertibility
- 26:01: [lt] Example 7.35
- 27:53: [lt] LTI Systems and Differential Equations
- 29:51: [lt] Example 7.36
- 31:39: [lt] Example 7.37

The following is a link to the full video:

- https://youtu.be/cf8JIy83DdQ [duration: 00:15:42]

- 00:00: [lt] Section: Application: Circuit Analysis
- 00:12: [lt] Electronic Circuits
- 01:15: [lt] Resistors
- 01:17: [lt] Inductors
- 01:19: [lt] Capacitors
- 01:24: [lt] Circuit Analysis With the Laplace Transform
- 03:25: [lt] Example 7.38

The following is a link to the full video:

- https://youtu.be/SgK69mQdgiw [duration: 00:29:03]

- 00:00: [lt] Section: Application: Design and Analysis of Control Systems
- 00:13: [lt] Control Systems
- 02:35: [lt] Feedback Control Systems
- 05:27: [lt] Stability Analysis of Feedback Systems
- 07:40: [lt] Example 7.40 — Stabilization Example: Unstable Plant
- 08:52: [lt] Example 7.40 — Stabilization Example: Using Pole-Zero Cancellation
- 11:04: [lt] Example 7.40 — Stabilization Example: Using Feedback (1)
- 13:42: [lt] Example 7.40 — Stabilization Example: Using Feedback (2)
- 17:04: [lt] Example 7.40 — Stabilization Example: Using Feedback (3)
- 17:55: [lt] Example 7.40 — Remarks on Stabilization Via Pole-Zero Cancellation
- 20:12: [lt] Exercise 7.30

The following is a link to the full video:

- https://youtu.be/ac6Nbs6hf7M [duration: 00:20:52]

- 00:00: [lt] Section: Unilateral Laplace Transform
- 00:32: [lt] Unilateral Laplace Transform
- 03:15: [lt] Inversion of the Unilateral Laplace Transform
- 05:40: [lt] Unilateral Versus Bilateral Laplace Transform
- 07:39: [lt] Properties of the Unilateral Laplace Transform
- 09:14: [lt] Unilateral Laplace Transform Pairs
- 10:21: [lt] Solving Differential Equations Using the Unilateral Laplace Transform
- 11:31: [lt] Example 7.42
- 14:25: [lt] Example 7.43