Why enroll

This course is essential for civil and structural engineers involved in the design of buildings, bridges, and infrastructure subjected to dynamic loads. It helps learners understand the fundamental principles behind seismic design codes and dynamic analysis software. The knowledge gained is critical for designing safe, efficient, and resilient structures and is highly relevant for higher studies, research, and competitive examinations.

Course details

The Dynamics of Structures course provides a comprehensive understanding of how structures respond to time-dependent and dynamic loads such as earthquakes, wind, impact, machinery vibrations, and moving loads. The course explains the fundamental difference between static and dynamic behavior and highlights the role of mass, stiffness, and damping in governing structural response.

The course begins with the formulation of equations of motion for structural systems and introduces essential concepts such as natural frequency, period of vibration, damping ratio, and resonance. Learners study free vibration and forced vibration of single-degree-of-freedom (SDOF) systems under undamped and damped conditions. The response of structures to harmonic, periodic, and transient loads is analyzed in detail, with emphasis on displacement, velocity, and acceleration responses.

The course then extends to multi-degree-of-freedom (MDOF) systems, where learners examine coupled equations of motion, mode shapes, natural frequencies, and orthogonality properties. Modal analysis techniques are introduced to decouple complex systems and evaluate dynamic response efficiently. Numerical methods such as step-by-step integration and time-history analysis are also discussed to handle complex loading conditions.

Throughout the course, engineering applications such as earthquake-induced ground motion, wind-induced vibrations, and dynamic response of buildings and bridges are emphasized. By the end of the course, learners develop the ability to model dynamic systems, interpret dynamic response results, and apply dynamic analysis concepts to the design and assessment of structures.

SOURCE- Youtube [NPTEL IIT Bombay]

Course suitable for

Key topics covered

Fundamentals of structural dynamics
Types of dynamic loads and structural response
Single-degree-of-freedom (SDOF) systems
Free and forced vibration analysis
Damping models and energy dissipation
Response of structures to harmonic loading
Multi-degree-of-freedom (MDOF) systems
Modal analysis and mode shapes
Introduction to numerical methods in dynamics
Basics of earthquake and wind-induced vibrations

Course content

The course is readily available, allowing learners to start and complete it at their own pace.

Dynamics of Structures

29 Lectures

1570 min

Introduction to Structural Dynamics
Preview
50 min
Equation of Motion
42 min
Idealization of Structures
50 min
Components of Dynamic System
45 min
Free Vibration
52 min
Damped Free Vibration Part 1
38 min
Damped Free Vibration Part 2
54 min
Undamped Harmonic Excitations
66 min
Damped Harmonic Excitations
59 min
Frequency response curves
40 min
Transmissibility
73 min
Energy in Forced Vibrations
57 min
Unit impulse Functions
54 min
Step and Ramp Forces
63 min
Pulse Excitations
63 min
Numerical Response Methods
67 min
Seismic Response Spectra
64 min
Continuous systems
59 min
Lumped mass systems
56 min
Equation of motion.
67 min
Equation of motion - examples
55 min
Mode shapes and frequencies
62 min
Free vibration- Undamped and Damped
45 min
Damping in MDOF Systems
27 min
Forced response of MDOF systems
30 min
Modal superposition Analysis
62 min
Response Spectrum Analysis
48 min
Concept of Seismic Isolation
49 min
Dynamics of Base-isolation Systems
73 min

Opportunities that awaits you!

Earn a course completion certificate

Add this credential to your LinkedIn profile, resume, or CV. Share it on social media and in your performance review

Career opportunities

FREE

Access anytime