Lectures related to Barrages and Hydraulic Structures

Static Equilibrium: Understanding Forces in Structural Design

Covers the principles of static equilibrium and their application in structural design.

Plastic Hinge Method: Analysis and Design

Explores the plastic hinge method for inelastic deformation estimation and discusses the challenges of force-based design.

Modeling Structures: Arches and Cables

Covers the modeling and analysis of arches and cables in structures.

Structural Mechanics: Understanding Structures' Behavior under Loads

Covers the basics of structural mechanics, exploring how structures respond to loads and the factors influencing their behavior.

Arches and Cables: Structural Analysis Principles

Covers the principles of structural analysis for arches and cables, focusing on geometry and load distribution.

Designing Structures: Marshmallow Challenge and Mechanics

Covers the Marshmallow Challenge and explores structural mechanics concepts like beams, bars, and trusses.

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.

Structural Design Principles: Key Considerations and Examples

Covers the key principles of structural design and their implications for architects.

Cables under Various Loads

Explores the analysis of cables under different loads and the geometric properties of parabolic cable shapes.

Structural Design: Concepts and Innovations

Explores fundamental aspects of structural design, emphasizing safety and comfort in buildings through factors like loads, supports, materials, and innovative designs.

Principle of Virtual Work: Structural Mechanics Applications

Covers the principle of virtual work and its applications in structural mechanics through various exercises and detailed calculations.

Response Spectrum Method

Covers the Response Spectrum Method and its combination rules, emphasizing effective modal mass and maximum absolute responses.

Seismic Design Methods: Response Spectrum vs Equivalent Lateral Force

Compares force-based seismic design methods: response spectrum vs equivalent lateral force, explaining peak forces and displacements estimation during earthquakes.

Fracture Mechanics: Energy Analysis

Explores energy analysis in fracture mechanics, emphasizing unstable crack growth and the importance of compliance in structural behavior.

Seismic Engineering Fundamentals

Delves into seismic engineering basics, covering plastic hinge analysis, force-based design issues, and displacement evaluation methods.

Introduction to Structural Mechanics: Systems of Forces

Introduces the fundamental concepts of forces, moments, and their classifications in structural mechanics.

Relationship between R and Ductility

Delves into the relationship between R and ductility in seismic engineering, focusing on inelastic response spectra.

Failure modes: URM structures & RC frames with URM infills

Explores the failure modes of URM structures and RC frames with URM infills.

Compression in Structures: Cables and Arches

Explores the analogy between cables and arches, focusing on compression structures and stability considerations.

Structural Analysis: Reticulated Systems and Their Equilibrium

Covers the principles of structural analysis for reticulated systems, focusing on equilibrium, force diagrams, and the modeling of trusses and cables.