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Ph2a Promo: Vibrations and Waves

Lecture 1 - Simple Harmonic Motion

Recitation 1 - Why Vibrations and Waves Matter

Lecture 2 - The Pendulum and the LC Circuit

Recitation 2 - Simple Harmonic Motion in Action

Lecture 3 - Damped and Driven Harmonic Oscillator

Recitation 3 - Damped Harmonic Motion - I

Lecture 4 - Three Cases of Damped Motion

Recitation 4 - Damped Harmonic Motion - II

Lecture 5 - Steady State Motion of a Forced Damped Harmonic Oscillator

Recitation 5 - Forced Harmonic Motion

Lecture 6 - Energy and Power Dissipation; Coupled Oscillators

Recitation 6 - Forced Harmonic Motion in Action

Lecture 7 - Solving the Coupled Oscillator Equation

Recitation 7 - Coupled Oscillators

Lecture 8 - Forced Coupled Oscillation; Traveling Waves

Recitation 8 - Coupled Oscillations in Action

Lecture 9 - "The" Wave Equation and a Vibrating String

Recitation 9 - The Phenomenon of Wave Propagation

Lecture 10 - Where Things Begin and End Boundary Conditions and Discontinuities

Recitation 10 - Continuum Normal Modes and Standing Waves

Lecture 11 - Standing Waves

Recitation 11 - Fourier Analysis in Action

Lecture 12 - Fourier Analysis and then More Dimensions

Recitation 12 - Standing Waves and Boundary Conditions in Two Dimensions

Lecture 13 - Standing Waves Demonstrated and Analysis of the Circular Drumhead

Recitation 13 - Interference and Sound Channels

Lecture 14 - Interference of Waves and Electromagnetic Waves

Recitation 14 - Interference in Action

Lecture 15 - Polarization; Huygen’s Principle; Diffraction

Recitation 15 - Polarization

Lecture 16 - Double Slits and Circular Apertures

Recitation - 16 - Introduction to Dispersion of Waves

Lecture 17 - Fresnel Diffraction, then on to Dispersion

Recitation 17 - Thanksgiving: A Glimpse into the Heart of Physics

Lecture 18 - Dispersion Demonstrated

Recitation 18 - Final Review

Lecture 19 - The Bandwidth Theorem

Description:

Explore the fundamental principles of vibrations and waves in this comprehensive course from the California Institute of Technology. Delve into topics such as simple harmonic motion, damped and driven oscillators, coupled oscillations, wave propagation, standing waves, Fourier analysis, interference, electromagnetic waves, polarization, diffraction, and dispersion. Through a series of lectures and recitations, gain a deep understanding of these physical phenomena and their applications in various fields of science and engineering. Engage with practical demonstrations and real-world examples to reinforce theoretical concepts and develop problem-solving skills. By the end of this course, master the essential knowledge and analytical techniques necessary to tackle complex problems involving vibrations and waves in physics and related disciplines.

Vibrations and Waves

California Institute of Technology

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#Science #Physics #Simple Harmonic Motion #Optics #Diffraction #Dispersion

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