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Lecture
Vibratory mechanics: course overview
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Related lectures (30)
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Vibratory Mechanics: QCMs Week 12
Covers topics related to vibratory mechanics, including free and forced oscillations.
Vibration of Diatomic Molecules
Explores the vibration of diatomic AB molecules and Fourier series, emphasizing equations of motion and Dirichlet's theorem.
Fourier transforms: Light-matter interaction
Explores Fourier and Laplace transforms in materials science, focusing on light-matter interaction, diffraction patterns, and crystal properties.
Forced Vibrations: Fourier Series and Periodic Steady State
Explores force decomposition, Fourier series, and periodic steady state in forced vibrations.
Forced Harmonic Oscillator
Explores the forced and damped harmonic oscillator, focusing on resonance and initial conditions.
Fourier Series and Laplace Transform
Covers Fourier series calculations and Laplace transform applications for periodic functions efficiently using tables and properties.
Poisson Problem: Fourier Transform Approach
Explores solving the Poisson problem using Fourier transform, discussing source terms, boundary conditions, and solution uniqueness.
Forced Harmonic Oscillator: Resonance Phenomenon
Covers the forced and damped harmonic oscillator, including the harmonic solution and resonance phenomenon.
Fourier and Laplace Transforms: Concepts and Applications
Provides an overview of Fourier and Laplace transforms, their properties, and applications in signal analysis.
Introduction to Vibratory Mechanics
Covers basic definitions and transformations in vibratory mechanics.
