Mechanics and Design
This note covers the following topics: Vectors and Tensors, Scalar Product and Vector Product, Stresses and Strains, Elastic Energy – Castigliano’s Theorem, Buckling, Elastic Stability, Finite Element Method: Truss Element, Beam Element, Plane Stress and Plane Strain, Iso-Parametric Formulation, Stress-Strain Relations: Plastic and Anisotropic Behavior, Idealizations of Stress-Strain Curves , Plastic and Anisotropic Behavior, Idealizations of Stress-Strain Curves, Fatigue Analysis and Design.
Author(s): Prof. Youn, Byeng Dong
NA Pages 
Lecture notes on Engineering Mechanics
This lecture note covers Fundamentals of Engineering Mechanics, Equillibrium, Friction Centroid and moments of inertia, Simple Machines and Dynamics.
Author(s): Hadu Bandhu Dakua, Lecturer in Mechanical Engineering
151 Pages
This PDF covers the following topics related to Engineering Mechanics Statics : Fundamental Concepts, Particles, Rigid Body Basics, Rigid Bodies, Trusses, Internal Forces, Inertia.
Author(s): Libby (Elizabeth) Osgood, Gayla Cameron, Emma Christensen, Analiya Benny, and Matthew Hutchison
NA Pages
Engineering Mechanics by Sandeep and Prasanna
This PDF covers the following topics related to Engineering Mechanics : Introduction to Engineering Mechanics, Friction and Basics Structural Analysis, Centroid and Centre of Gravity and Virtual Work and Energy Method, Particle Dynamics and Introduction to Kinetics, Mechanical Vibrations.
Author(s): Dr. Ch. Sandeep, Associate Professor, V. Prasanna, Assistant Professor
120 Pages
This PDF covers the following topics related to Engineering Mechanics : Introduction, Models in the mechanics of materials, Continuum hypothesis, Kinematics: Motion and deformation, Kinetics: Forces and stresses, Fundamental laws of continuum mechanics, Constitutive equations, Elementary problems of engineering mechanics.
Author(s): W. Brocks, D. Steglich, Christian-Albrechts University Kiel
80 Pages
This note covers the following topics: Vectors and Tensors, Scalar Product and Vector Product, Stresses and Strains, Elastic Energy – Castigliano’s Theorem, Buckling, Elastic Stability, Finite Element Method: Truss Element, Beam Element, Plane Stress and Plane Strain, Iso-Parametric Formulation, Stress-Strain Relations: Plastic and Anisotropic Behavior, Idealizations of Stress-Strain Curves , Plastic and Anisotropic Behavior, Idealizations of Stress-Strain Curves, Fatigue Analysis and Design.
Author(s): Prof. Youn, Byeng Dong
NA Pages
This note explains the following topics: Basics of Statics, Analysis of Structures, Introduction to Friction, Geometry Dependent Properties, Energy Methods, Kinematics, Kinetics, Introduction to 3-D Kinematics,3-D Dynamics, Introduction to vibration.
Author(s): NPTEL
NA Pages
