Chapter 01 Part 2: Real and Complex Exponential Signals.
Properties of real and complex exponential signals are discussed for both continuous-time (CT) and discrete-time (DT) using examples. Methods of finding the amplitude, frequency, and period of both CT and DT signals are introduced. The concept of DT frequency is explained.

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Chapter 01 Part 3: Harmonics, Impulses, and Step Functions

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How do Complex Numbers relate to Real Signals? ("Best explanation EVER!")

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Exponential Signals (Real and Complex)

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Discrete And Continuous Time Complex Exponential Signal: a graphical introduction to DSP

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(SoME1) Imaginary numbers with real applications: complex exponentials and Euler's formula

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Convolution and Unit Impulse Response

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The Real Reason Behind Using I/Q Signals

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Chapter 01 Part 1: Introduction to Signals and Systems

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Fourier Transform, Fourier Series, and frequency spectrum

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What is convolution? This is the easiest way to understand

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e^(iπ) in 3.14 minutes, using dynamics | DE5

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Laplace Transform Explained and Visualized Intuitively

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Chapter 03 Part 1: Continuous-Time Fourier Series and Frequency Response

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Chapter 01 Part 4: Properties of LTI Systems

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40Hz Binaural Gamma Waves - Ultra Deep Concentration

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Even and Odd Signals

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What is Convolution? And Two Examples where it arises

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Understanding the Z-Plane

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Why Study Signals and Systems?

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