Vector mechanics for engineers statics 12th edition solutions manual pdf

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 ABOUT vector mechanics for engineers statics 12th edition solutions manual pdf 

A primary objective in a first course in mechanics is to help develop a student’s ability first to analyze problems in a simple and logical manner, and then to apply basic principles to their solutions. A strong conceptual understanding of these basic mechanics principles is essential for successfully solving mechanics problems. This edition of Vector Mechanics for Engineers will help instructors achieve these goals. Continuing in the spirit of its successful previous editions, this edition provides conceptually accurate and thorough coverage together with a significant refreshment of the exercise sets and online delivery of homework problems to your students.

The 12th edition has new case studies and enhancements in the text and in Connect. The hallmark of the Beer-Johnston series has been the problem sets.This edition is no different. Over 650 of the homework problems in the text are new or revised. One of the characteristics of the approach used in this book is that mechanics of particles is clearly separated from the mechanics of rigid bodies. This approach makes it possible to consider simple practical applications at an early stage and to postpone the introduction of the more difficult concepts. Additionally, Connect has over 100 Free-Body Diagram Tool Problems and Process-Oriented Problems.

McGraw-Hill’s Connect, is also available. Connect is the only integrated learning system that empowers students by continuously adapting to deliver precisely what they need, when they need it, how they need it, so that class time is more effective. Connect allows the professor to assign homework, quizzes, and tests easily and automatically grades and records the scores of the student’s work. Problems are randomized to prevent sharing of answers an may also have a “multi-step solution” which helps move the students’ learning along if they experience difficulty.

TABLE OF CONTENTS

  1. Cover
  2. Halftitle
  3. Title
  4. Copyright
  5. About the Authors
  6. Brief Contents
  7. Contents
  8. Preface
  9. Guided Tour
  10. Digital Resources
  11. Acknowledgments
  12. List of Symbols
  13. Vector Mechanics For Engineers: Statics and Dynamics
  14. 1 Introduction
  15. 1.1 What is Mechanics?
  16. 1.2 Fundamental Concepts and Principles
  17. 1.3 Systems of Units
  18. 1.4 Converting between Two Systems of Units
  19. 1.5 Method of Solving Problems
  20. 1.6 Numerical Accuracy
  21. 2 Statics of Particles
  22. 2.1 Addition of Planar Forces
  23. 2.2 Adding Forces by Components
  24. 2.3 Forces and Equilibrium in a Plane
  25. 2.4 Adding Forces in Space
  26. 2.5 Forces and Equilibrium in Space
  27. Review and Summary
  28. Review Problems
  29. 3 Rigid Bodies: Equivalent Systems of Forces
  30. 3.1 Forces and Moments
  31. 3.2 Moment of a Force about an Axis
  32. 3.3 Couples and Force-Couple Systems
  33. 3.4 Simplifying Systems of Forces
  34. Review and Summary
  35. Review Problems
  36. 4 Equilibrium of Rigid Bodies
  37. 4.1 Equilibrium in Two Dimensions
  38. 4.2 Two Special Cases
  39. 4.3 Equilibrium in Three Dimensions
  40. Review and Summary
  41. Review Problems
  42. 5 Distributed Forces: Centroids and Centers of Gravity
  43. 5.1 Planar Centers of Gravity and Centroids
  44. 5.2 Further Considerations of Centroids
  45. 5.3 Additional Applications of Centroids
  46. 5.4 Centers of Gravity and Centroids of Volumes
  47. Review and Summary
  48. Review Problems
  49. 6 Analysis of Structures
  50. 6.1 Analysis of Trusses
  51. 6.2 Other Truss Analyses
  52. 6.3 Frames
  53. 6.4 Machines
  54. Review and Summary
  55. Review Problems
  56. 7 Internal Forces and Moments
  57. 7.1 Internal Forces in Members
  58. 7.2 Beams
  59. 7.3 Relations Among Load, Shear, and Bending Moment
  60. *7.4 Cables
  61. *7.5 Catenary Cables
  62. Review and Summary
  63. Review Problems
  64. 8 Friction
  65. 8.1 The Laws of Dry Friction
  66. 8.2 Wedges and Screws
  67. *8.3 Friction on Axles, Disks, and Wheels
  68. 8.4 Belt Friction
  69. Review and Summary
  70. Review Problems
  71. 9 Distributed Forces: Moments of Inertia
  72. 9.1 Moments of Inertia of Areas
  73. 9.2 Parallel-Axis Theorem and Composite Areas
  74. *9.3 Transformation of Moments of Inertia
  75. *9.4 Mohr’s Circle for Moments of Inertia
  76. 9.5 Mass Moments of Inertia
  77. *9.6 Additional Concepts of Mass Moments of Inertia
  78. Review and Summary
  79. Review Problems
  80. 10 Method of Virtual Work
  81. *10.1 The Basic Method
  82. *10.2 Work, Potential Energy, and Stability
  83. Review and Summary
  84. Review Problems
  85. 11 Kinematics of Particles
  86. 11.1 Rectilinear Motion of Particles
  87. 11.2 Special Cases and Relative Motion
  88. *11.3 Graphical Solutions
  89. 11.4 Curvilinear Motion of Particles
  90. 11.5 Non-Rectangular Components
  91. Review and Summary
  92. Review Problems
  93. 12 Kinetics of Particles: Newton’s Second Law
  94. 12.1 Newton’s Second Law and Linear Momentum
  95. 12.2 Angular Momentum and Orbital Motion
  96. *12.3 Applications of Central-Force Motion
  97. Review and Summary
  98. Review Problems
  99. 13 Kinetics of Particles: Energy and Momentum Methods
  100. 13.1 Work and Energy
  101. 13.2 Conservation of Energy
  102. 13.3 Impulse and Momentum
  103. 13.4 Impacts
  104. Review and Summary
  105. Review Problems
  106. 14 Systems of Particles
  107. 14.1 Applying Newton’s Second Law and Momentum Principles to Systems of Particles
  108. 14.2 Energy and Momentum Methods for a System of Particles
  109. *14.3 Variable Systems of Particles
  110. Review and Summary
  111. Review Problems
  112. 15 Kinematics of Rigid Bodies
  113. 15.1 Translation and Fixed-Axis Rotation
  114. 15.2 General Plane Motion: Velocity
  115. 15.3 Instantaneous Center of Rotation
  116. 15.4 General Plane Motion: Acceleration
  117. 15.5 Analyzing Motion with Respect to a Rotating Frame
  118. *15.6 Motion of a Rigid Body in Space
  119. *15.7 Motion Relative to a Moving Reference Frame
  120. Review and Summary
  121. Review Problems
  122. 16 Plane Motion of Rigid Bodies: Forces and Accelerations
  123. 16.1 Kinetics of a Rigid Body
  124. 16.2 Constrained Plane Motion
  125. Review and Summary
  126. Review Problems
  127. 17 Plane Motion of Rigid Bodies: Energy and Momentum Methods
  128. 17.1 Energy Methods for a Rigid Body
  129. 17.2 Momentum Methods for a Rigid Body
  130. 17.3 Eccentric Impact
  131. Review and Summary
  132. Review Problems
  133. 18 Kinetics of Rigid Bodies in Three Dimensions
  134. 18.1 Energy and Momentum of a Rigid Body
  135. *18.2 Motion of a Rigid Body in Three Dimensions
  136. *18.3 Motion of a Gyroscope
  137. Review and Summary
  138. Review Problems
  139. 19 Mechanical Vibrations
  140. 19.1 Vibrations without Damping
  141. 19.2 Free Vibrations of Rigid Bodies
  142. 19.3 Applying the Principle of Conservation of Energy
  143. 19.4 Forced Vibrations
  144. 19.5 Damped Vibrations
  145. Review and Summary
  146. Review Problems
  147. Appendix: Fundamentals of Engineering Examination
  148. Answers to Problems
  149. Index

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