Engineering Mechanics Statics by Dr Bashar Abid Hamza
Engineering Mechanics Statics by Dr Bashar Abid Hamza
Engineering Mechanics Statics by Dr Bashar Abid Hamza
This
note covers Force system, Two dimensional force systems,
Rectangular components, Moment, Couple, Resultants, Vectors, Three dimensional
force systems, Rectangular components, Moment and couple, Resultants, Modeling
of supports and free body diagram, Equilibrium, Center of mass, Centroids of
lines, areas and volumes, Centroid of composed figures, Truss, Frame and
machines, Friction, Flexible belts, Moment of inertia, Polar moment of inertia,
Radius of gyration, Transfer of axes and moment of inertia of composite areas.
This PDF covers the following topics related to
Engineering Mechanics : Fundamentals of Engineering Mechanics, Equillibrium,
Friction, Centroid and Moment of Inertia, Simple Machines, Dynamics.
Author(s): State Council for Technical Education and
Vocational Training, Odisha
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
This PDF covers the
following topics related to Engineering Mechanics : Basic principles,
Structures, Frame, Friction, Virtual work and Energy method, Potential energy
and equilibrium, Parallel axis theorem.
Author(s): Rajib Kumar Bhattacharjya, Department of Civil
Engineering, Indian Institute of Technology Guwahati
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
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.
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.