Mechanics of Materials

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Pearson Prentice Hall, 2005 - Technology & Engineering - 873 pages
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For undergraduate Mechanics of Materials courses in Mechanical, Civil, and Aerospace Engineering departments. Hibbeler continues to be the most student friendly text on the market. The new edition offers a new four-color, photorealistic art program to help students better visualize difficult concepts. Hibbeler continues to have over 1/3 more examples than its competitors, Procedures for Analysis problem solving sections, and a simple, concise writing style. Each chapter is organized into well-defined units that offer instructors great flexibility in course emphasis. Hibbeler combines a fluid writing style, cohesive organization, outstanding illustrations, and dynamic use of exercises, examples, and free body diagrams to help prepare tomorrow's engineers.

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Contents

and Fatigue
112
Axial Load
121
Bending
263
Copyright

14 other sections not shown

Other editions - View all

Mechanics of Materials
R. C. Hibbeler
No preview available - 2005
Mechanics of Materials
R. C. Hibbeler
No preview available - 2005

Common terms and phrases

allowable shear stress aluminum angle of twist Applying Eq assumed average normal stress average shear stress axes axial force axial load beam’s bolt buckling caused centroid column compressive stress computed constant cross section cross-sectional area deflection deformation Determine the maximum distributed load Draw the shear elastic curve factor of safety fixed flange free-body diagram horizontal inertia intemal length linear-elastic loading shown material maximum bending stress maximum in-plane shear maximum shear stress modulus of elasticity moment of inertia neutral axis normal strain orientation plastic positive principal stresses radius reactions segment shaft shear center shear force shear strain shown in Fig sign convention slope Solution Solve Prob statically indeterminate steel strain energy stress acting stress components stress developed stress distribution stress-strain diagram tensile tensile stress theorem thickness torque torsion tube vertical yield zero

About the author (2005)

Russ Hibbeler "graduated from the University of Illinois-Urbana with a B.S. in Civil Engineering (major in structures) and an M.S. in Nuclear Engineering. He obtained his Ph.D. in Theoretical and Applied Mechanics from Northwestern University. Hibbeler's professional experience includes postdoctoral work in reactor safety and analysis at Argonne National Laboratory, and structural work at Chicago Bridge and Iron, Sargent and Lundy, Tucson. He has practiced engineering in Ohio, New York, and Louisiana. He has taught at the University of Illinois-Urbana, Youngstown State University, Illinois Institute of Technology, and Union College. Hibbeler currently teaches at the University of Louisiana-Lafayette.

Bibliographic information

QR code for Mechanics of Materials
TitleMechanics of Materials
Pearson education
AuthorR. C. Hibbeler
Edition6, illustrated
PublisherPearson Prentice Hall, 2005
Original fromthe University of Michigan
Digitized22 Aug 2011
ISBN013191345X, 9780131913455
Length873 pages
Subjects › 

Technology & Engineering / Materials Science
  
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