This note describes the following topics: fundamentals of engineering mechanics, Equilibrium, Friction, Centroid and moment of inertia, Simple machines and dynamics.
Author(s): State Council for Technical Education and Vocational Training, Odisha
The PDF explains the following topics related to Orbital Mechanics : Two-Body Problem, The Orbit in Space, The Orbit as a Function of Time, Rocket Dynamics, Impulsive Orbit Transfer, Interplanetary Orbital Transfer.
Author(s): Anil V. Rao, University of Florida, Gainesville
The PDF covers the following topics related to Mechanics : Forces, Newton’s laws, Net force, Newton’s second law, Weight, Normal force and friction force, Newton’s third law, Tension force, Spring force, Non-inertial frames of reference, Friction and Drag, Energy, Kinetic energy, Work-energy theorem, Potential energy and conservation of energy in a free fall, Multiple forces, Potential energy and conservation of energy, Potential energy diagrams, Non-conservative forces, Power, Conservative forces, Elastic potential energy, Work-energy theorem with multiple conservative forces, Equilibrium and stability, Law of gravitation, Gravitational force, Gravitational potential energy, Harmonic motion.
Author(s): Yaouen Fily
The topics explained in this pdf include:: Kinematics, Newtonian Mechanics for single particles, Work and Energy, System of many particles, Lagrangian mechanics - first approach, Lagrangian mechanics from Hamilton’s principle, Elements of Hamiltonian mechanics, Central force motion and two-body problem, Harmonic oscillator, Coupled oscillations, Non-inertial reference frames, Motion of rigid bodies.
Author(s): Christian Kurtsiefer
The contents of this pdf include: Vector Analysis, Mechanics of a Particle, Dynamics of a Rigid Bodies, Gravitation and Properties of matter.
Author(s): Department of Physics, School of Sciences, Uttarakhand Open University
This lecture note helps students to develop the ability to work comfortably with basic engineering mechanics concepts Required for analyzing static structures. Topics covered includes: 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
This note covers the following topics: Fundamentals Of Engineering Mechanics, Equilibrium,friction, Centroid and Moment of Inertia, Simple Machines and Dynamics.
Author(s): Mithun Kumar Keshari
This note provides an introduction to the mechanics of solids with applications to science and engineering. Itemphasize the three essential features of all mechanics analyses, namely: (a) the geometry of the motion and/or deformation of the structure, and conditions of geometric fit, (b) the forces on and within structures and assemblages; and (c) the physical aspects of the structural system which quantify relations between the forces and motions/deformation.
Author(s): Prof. Carol Livermore, Prof. Henrik Schmidt, Prof. James H. Williams, Prof. Simona Socrate
This note provides an introduction to the mechanics of materials and structures. You will be introduced to and become familiar with all relevant physical properties and fundamental laws governing the behavior of materials and structures and you will learn how to solve a variety of problems of interest to civil and environmental engineers. Topics covered includes: Galileo's problem, Dimensional analysis and atomic explosion, Newton's laws of motion, Continuum model, Beam stress model, Beam deformation, Beam elasticity and Fracture mechanics.
Author(s): Prof. Franz-Josef Ulm and Prof. Markus Buehler
This note explores the nature of rocks and rock masses as construction, foundation, or engineering materials. Topics covered include: Physical properties of intact rocks, stresses and strains, thermal, hydraulic and mechanical properties of rocks and rock masses, applications of theory of elasticity in rock mechanics, visco-elasticity, rock discontinuities, hemispherical projection methods, in situ stresses and stress measurements, rock slope engineering and underground excavations in rock.
Author(s): Bernard Amadei
Mechanics describes and predicts the conditions of rest or motion of bodies under the action of forces. Engineering mechanics applies the principle of mechanics to design, taking into account the effects of forces. This book covers the following topics: Concurrent forces on a plane, Composition and Resolution of forces, Method of moments, Friction, Ladder and rope friction, Principle of virtual work, Rectilinear Translation, Principle of Dynamics, D’Alembert’s Principle, Motion of a Projectile, Rotation of rigid body.
Author(s): Prof. Mihir Kumar Sutar
This book covers the following topics: Fundamentals of Mechanics, Newton Analyzed Planetary Motion, Systems of Particles, Conservation Laws, Rigid Bodies, Constraints, Holonomic and Non-Holonomic Constraints, Statically Indeterminate Structures.
Author(s): Michael Spivak
This book is the result of the experience of the writer in teaching the subject of Applied Mechanics at the Massachusetts Institute of Technology. It is primarily a text-book ; and hence the writer has endeavored to present the different subjects in such a way as seemed to him best for the progress of the class, even though it be at some sacrifice of a logical order of topics.
Author(s): Gaetano Lanza
This book, as its name suggests, presents those principles of mechanics that are believed to be essential for the student of engineering.All the information is there, and is told simple yet completely.
Author(s): Fred B Seely
There is a strong emphasis of classical mechanics with closeness to physics and engineering. Among the topics explored: linear and nonlinear oscillators; quasi-periodic and multiperiodic motions; systems with constraints; Hamilton-Jacobi theory; integrable systems; stability problems of dissipative and conservative systems. Numerous exercises accompany the text, but the author assumes a knowledge of calculus.
Author(s): Giovanni Gallavotti
This note covers the following topics: Acceleration, Angular Momentum, Conservation of Energy, Frames of Reference, Friction, Forces, Gravitation, Linear Inertia, Mechanical Advantage, Linear Momentum, Motion in One Dimension, Physical Measurements, Projectiles, Rotational Dynamics, Rotational Inertia, Statics and Mechanical Equilibrium, Torque, Vectors.
Author(s): Museum Informatics Project, University of California, Berkeley
This note covers the following topics: Matrix Algebra and Indicial Notation, Vectors and Linear Transformations, Components of Tensors. Cartesian Tensors, Symmetry: Groups of Linear Transformations, Calculus of Vector and Tensor Fields, Orthogonal Curvilinear Coordinates, Calculus of Variations.
Author(s): Rohan Abeyaratne
Lecture Notes for a Course on Continuum Mechanics
Author(s): Trace formulas, Spectral determinants, Cycle expansions, Discrete factorization, Thermodynamic ../physics-books-download/images/Chaos-Classical-and-Quantum-[PDF-813].jpg
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This note covers the following topics: Numerical Methods, Conic Sections, Plane and Spherical Trigonomtry, Coordinate Geometry in Three Dimensions, Gravitational Field and Potential, Celestial Mechanics, Planetary Motions, Computation of an Ephemeris, Photographic Astrometry, Calculation of Orbital Elements, General Perturbation Theory, Visual Binary Stars and Spectroscopic Binary Stars.
Author(s): Dr. J. B. Tatum
This note covers the following topics: Lagrangian Dynamics, Linear Oscillators, From 1-d Motion to the Kepler Problem and Small Vibrations.
Author(s): Paul Lammert
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