Vibrating String: Mathematical Analysis

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Numerical Methods for Boundary Value Problems

Covers numerical methods for solving boundary value problems using finite difference, FFT, and finite element methods.

Superposition and Interference in Electromagnetic Waves

Explores the superposition and interference of electromagnetic waves, discussing energy redistribution and standing waves.

Green Functions in Electrostatics

Explores methods to construct Green functions in electrostatics, including image charge and eigenfunction expansion, under different boundary conditions.

Resonators: Understanding Frequency Response and Eigenvalues

Covers resonators, Eigenvalue problem for flexural resonators, and normalization importance.

Finite Element Method: Formulation and Approximations

Covers the strong and integral formulations, weak formulation, and approximation of temperatures.

Finite Element Analysis: Advanced Mechanisms in Engineering

Provides an overview of advanced mechanisms analysis using Finite Element Method and Finite Element Analysis in engineering applications.

Quantum Mechanics: Power Series Solutions

Explores power series solutions in quantum mechanics for differential equations and energy quantization.

Reflection and Refraction in Transparent Matter

Explores the laws of reflection and refraction in transparent matter, focusing on wave interaction with dielectric slabs.

Finite Element Method: Local Approach

Explores the local approach of the finite element method, covering nodal shape functions, solution restrictions, sizes, boundary conditions, and assembly operations.

Wave Propagation: Basics

Introduces the basics of wave propagation, covering longitudinal and transverse waves, superposition, reflection, d'Alembert equation, Fourier decomposition, and wave surfaces.