Engineering Mechanics Dynamics

Name: Engineering Mechanics Dynamics
Availability: OutOfStock
ISBN: 9780495296102

ISBN-10: 0495296104

ISBN-13: 9780495296102

Edition: 2008

Authors: Daniel Balint

List price: $17.99

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Description:

This supplement is intended to teach the reader how to solve dynamics problems using Maple®. While the manual suggests ways to use Maple® to enhance your understanding of dynamics and teaches you efficient computational skills, you should feel free to browse the Maple® manual and create your own methods for solving problems and for using Maple®. Quality technical documents can be created entirely within Maple®. These manuals are an example of this, demonstrating the software's capability. As a consequence, the input and output for formats presented in this manual are consistent with actual Maple® input and output. The first chapter is a general introduction to Maple® that concludes with a…

Book details

List price: $17.99
Copyright year: 2008
Publisher: Cengage Learning
Binding: Paperback
Pages: 128
Size: 8.50" wide x 10.80" long x 0.30" tall
Weight: 0.704
Language: English

Dr. Daniel Balint is Lecturer in the Department of Mechanical Engineering at Imperial College London, UK.



Introduction


Numerical Calculations


Working with Functions


Symbolic Calculations


Solving Algebraic Equations


Graphs and Plots Vectors and Matrices



Kinematics of a Particle Inverse Dynamics Problem


Computational Window 1.1


Computational Window 1.2


Sample Problem 1.1


Sample Problem 1.2


Sample Problem 1.6 - Method 1


Sample Problem 1.6 - Method 2


Sample Problem 1.7


Sample Problem 1.10


Sample Problem 1.11


Sample Problem 1.12


Sample Problem 1.14


Sample Problem 1.15


Sample Problem 1.17


Sample Problem 1.18


Sample Problem 1.19


Sample Problem 1.20


Sample Problem 1.22


Sample Problem 1.24


1.5 Relative Motion


Sample Problem 1.25


Sample Problem 1.26


Sample Problem 1.34


Sample Problem 1.35



Kinematics of Particles


Sample Problem 2.1


Sample Problem 2.3


Sample Problem 2.4


Sample Problem 2.5


Sample Problem 2.5 - Modified


Sample Problem 2.6


Sample Problem 2.7


Sample Problem 2.8


Sample Problem 2.10


Sample Problem 2.12


Sample Problem 2.13


Sample Problem 2.14


Sample Problem 2.15


Sample Problem 2.17


Sample Problem 2.22



Work-Energy and Impulse Momentum - First Integrals of the Motion Impact Problems


Sample Problem 3.1 - Case 1


Sample Problem 3.1 - Case 2


Sample Problem 3.1 - Case 3


Chapter 4 - Systems of Particles


Sample Problem - Sample Problem 4.2


Sample Problem - Sample Problem 4.3


Chapter 5 - Equilibrium of Rigid Bodies


Sample Problem 5.8


Sample Problem 5.14


Sample Problem 5.15


Sample Problem 5.16


Section 5.10 - Analysis of Plane Motion in Terms of Parameter


Sample Problem 5.21


Sample Problem 5.23


Sample Problem 5.24


Sample Problem 5.25


Sample Problem 5.26


Sample Problem 5.31



Dynamics of Rigid Bodies in Plane Motion


Sample Problem 6.1


Sample Problem 6.3a


Sample Problem 6.3b


Sample Problem 6.3c


Sample Problem 6.4


Sample Problem 6.5


Sample Problem 6.6


Sample Problem 6.8


Sample Problem 6.9


Sample Problem 6.9 - Friction Neglected


Sample Problem 6.11



Power, Work, Energy, Impulse and Momentum of a Rigid Body


Sample Problem 7.9


Sample Problem 7.9 - Post Impact Analysis of a Vehicle A



Three-Dimensional Dynamics of Rigid Bodies


Sample Problem 8.2


Sample Problem 8.3 - Eulerian Angles


Sample Problem 8.4 8.7 Euler's Equations of Motion Heavy Top Solution



Vibration


Sample Problem 9.6


Sample Problem 9.9


Sample Problem 9.10


Sample Problem 9.11





Sample Problem A.1


Summary