NOC:Structural Dynamics


Lecture 1 - Module 1: Introduction of Structural Dynamics


Lecture 2 - Module 2: Types of Analysis


Lecture 3 - Module 3: Degrees of Freedom


Lecture 4 - Module 4: Vibrations of SDOF Systems


Lecture 5 - Module 5: Methods Solution of Equilibrium Equation


Lecture 6 - Module 6: UnDamped free Vibration


Lecture 7 - What is MATLAB?


Lecture 8 - Getting Started with MATLAB Online


Lecture 9 - MATLAB Variables


Lecture 10 - MATLAB as a Calculator


Lecture 11 - MATLAB Functions


Lecture 12 - Creating Vectors


Lecture 13 - Creating Uniformly Spaced Vectors (Colon Operator)


Lecture 14 - Creating Uniformly Spaced Vectors (LINSPACE)


Lecture 15 - Accessing Elements of a Vector


Lecture 16 - Calculations with Vectors


Lecture 17 - Creating Matrices


Lecture 18 - Matrix Creation Functions


Lecture 19 - Accessing Elements of a Matrix


Lecture 20 - Matrix Multiplication


Lecture 21 - Logical Operators


Lecture 22 - Writing a FOR Loop


Lecture 23 - If - Else Statements


Lecture 24 - While Loop


Lecture 25 - Line Plots


Lecture 26 - Annotating Graphs


Lecture 27 - Exploring Figures in MATLAB Online


Lecture 28 - Damped Free Vibration


Lecture 29 - Types of Damping


Lecture 30 - Logarithmic Decrement


Lecture 31 - Dynamic Equilibrium Equation Using Energy Method


Lecture 32 - Module 1: UnDamped Forced Vibration


Lecture 33 - Module 2: Damped Forced Vibration


Lecture 34 - Module 3: Relationship between Rd, Rv & Ra


Lecture 35 - Module 4: Resonant Frequency & Half Power Band Width


Lecture 36 - Module 5: Transmissibility


Lecture 37 - Module 1: Response to Arbitrary Force


Lecture 38 - Module 2: Special Cases in Arbitrary Force


Lecture 39 - Module 3: Fourier Transformation


Lecture 40 - Module 1: Numerical Methods


Lecture 41 - Module 2: Methods Based on Interpolation of Excitation


Lecture 42 - Module 3: Central Difference Method


Lecture 43 - Module 4: Numerical Methods based on Variation of Acceleration: Newmark’s Method


Lecture 44 - Central Difference Method (Tutorial)


Lecture 45 - Module 1: Response Spectrum


Lecture 46 - Module 2: Special Cases of Response Spectrum


Lecture 47 - Module 3: Development of Tripartite Plot


Lecture 48 - Module 1: Multi-Degree of Freedom System


Lecture 49 - Module 2: Multi-Degree of Freedom System: Solution of Equilibrium Equation


Lecture 50 - Module 3: Multi-Degree of Freedom System: Modal Orthogonality


Lecture 51 - Module 4: Approximate Methods For Finding Natural Frequency


Lecture 52 - Tutorial 01: Generation of Mass Matrix


Lecture 53 - Tutorial 2: Eigen vector and Modal Orthogonality


Lecture 54 - Module 1: Time History Analysis


Lecture 55 - Module 2: Response Spectrum Analysis


Lecture 56 - Module 1: Three Dimensional Dynamic Analysis


Lecture 57 - Module 2: Generation of Elastic Design Response Spectra


Lecture 58 - W09T01: Centre of Mass & Centre of Stiffness


Lecture 59 - Module 1: Vibration of Continuous Systems


Lecture 60 - Module 2: Example Problem on Continuous system


Lecture 61 - Module 3: Theory of Seismometer


Lecture 62 - Module 1: Dynamics of Non Structural Elements


Lecture 63 - Module 2: Non Structural Elements Example


Lecture 64 - W11T: Non Structural Elements


Lecture 65 - Module 1: Classical and Non-classical Damping


Lecture 66 - Module 2: Vibration Control


Lecture 67 - Module 3: Base Isolation


Lecture 68 - Module 4: Tuned Mass Damper