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Engineering mechanics : dynamics / Andrew Pytel and Jaan Kiusalaas

By: Pytel, Andrew [author]Contributor(s): Kiusalaas, Jaan [co-author]Material type: Text

TextPublication details: Boston, MA : Cengage Learning, c2017Edition: Fourth editionDescription: xii, 655 pages : illustrations ; 27 cmISBN: 9781305579200Subject(s): DYNAMICS | MECHANICS, APPLIEDLOC classification: TA 351 .P98 2017

Contents:

Introduction to dynamics -- Dynamics of a particle: rectangular coordinates -- Dynamics of a particle: curvilinear coordinates -- Work-energy with impulse-momentum principles for a particle -- Dynamics of particle systems -- Planar kinematics of rigid bodies -- Planar kinetics of rigid bodies: force-mass-acceleration method -- Planar kinetics of rigid bodies: work-energy and impulse-momentum methods -- Rigid-body dynamics in three dimensions -- Vibrations -- Proof of the relative velocity equation for rigid-body motion -- Numerical solution of differential equations -- Mass moments and products of inertia.

Summary: Contaiins large number of problems that are to be solved by the student.

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Item type	Current library	Home library	Collection	Shelving location	Call number	Copy number	Status	Date due	Barcode
Books	National University - Manila	National University - Manila	Civil Engineering	General Circulation	GC TA 351 .P98 2017 (Browse shelf (Opens below))	c.1	Available		NULIB000014870

Includes index.

Introduction to dynamics --
Dynamics of a particle: rectangular coordinates --
Dynamics of a particle: curvilinear coordinates --
Work-energy with impulse-momentum principles for a particle --
Dynamics of particle systems --
Planar kinematics of rigid bodies --
Planar kinetics of rigid bodies: force-mass-acceleration method --
Planar kinetics of rigid bodies: work-energy and impulse-momentum methods --
Rigid-body dynamics in three dimensions --
Vibrations --
Proof of the relative velocity equation for rigid-body motion --
Numerical solution of differential equations --
Mass moments and products of inertia.

Contaiins large number of problems that are to be solved by the student.

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