- Häftad (Paperback)
- Antal sidor
- McGraw-Hill Education / Asia
- Johnston, Jr., E. Russell / Dewolf, John / Mazurek, David
- 255 x 200 x 26 mm
- Antal komponenter
- 1480 g
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Mechanics of Materials (in SI Units)
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Beer and Johnstons Mechanics of Materials is the uncontested leader for the teaching of solid mechanics. Used by thousands of students around the globe since publication, mechanics of materials, provides a precise presentation of the subject illustrated with numerous engineering examples that students both understand and relate to theory and application.
The tried and true methodology for presenting material gives your student the best opportunity to succeed in this course. From the detailed examples, to the homework problems, to the carefully developed solutions manual, you and your students can be confident the material is clearly explained and accurately represented.
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Fler böcker av Ferdinand Beer
Bloggat om Mechanics of Materials (in SI Units)
Born in France and educated in France and Switzerland, Ferdinand Beer held an M.S. degree from the Sorbonne and an Sc.D. degree in theoretical mechanics from the University of Geneva. He came to the United States after serving in the French army during the early part of World War II and taught for four years at Williams College in the Williams-MIT joint arts and engineering program. Following his service at Williams College, Beer joined the faculty of Lehigh University, where he taught for thirty-seven years. He held several positions, including the University Distinguished Professors Chair and Chairman of the Mechanical Engineering and Mechanics Department. In 1995, Beer was awarded an honorary Doctor of Engineering degree by Lehigh University.
Born in Philadelphia, Russ holds a B.S. degree in civil engineering from the University of Delaware and an Sc.D. degree in the field of structural engineering from The Massachusetts Institute of Technology (MIT). He taught at Lehigh University and Worchester Polytechnic Institute (WPI) before joining the faculty of the University of Connecticut where he held the position of Chairman of the Civil Engineering Department and taught for twenty-six years. In 1991 Russ received the Outstanding Civil Engineer Award from the Connecticut Section of the American Society of Civil Engineers.
John T. DeWolf, Professor of Civil Engineering at the University of Connecticut, joined the Beer and Johnston team as an author on the second edition of mechanics of materials. John holds a B.S. degree in civil engineering from the University of Hawaii and M.E. and Ph.D. degrees in structural engineering from Cornell University. His research interests are in the area of elastic stability, bridge monitoring, and structural analysis and design. He is a registered Professional Engineer and a member of the Connecticut Board of Professional Engineers. He was selected as the University of Connecticut Teaching Fellow in 2006.
David Mazurek holds a B.S. in ocean engineering and an M.S. in civil engineering from the Florida Institute of Technology, and a Ph.D. in civil engineering from the University of Connecticut. Employed by the General Dynamics Corporation Electric Boat Division for five years, he provided submarine construction support and conducted engineering design and analysis associated with pressure hull and other structures. He then taught for one year at Lafayette College prior to joining the civil engineering faculty at the U.S. Coast Guard Academy, where he has been since 1990. Mazurek is currently a member of the American Railway Engineering & Maintenance-of-way Association Committee 15, and the American Society of Civil Engineers Committee on Blast, Shock, and Vibratory Effects. He has also worked with the Federal Railroad Administration on their bridge-inspection training program. He is a licensed professional engineer in Connecticut and Pennsylvania.
Chapter 1: Introduction-Concept of Stress
Chapter 2: Stress and Strain-Axial Loading
Chapter 3: Torsion
Chapter 4: Pure Bending
Chapter 5: Analysis and Design of Beams for Bending
Chapter 6: Shearing Stresses in Beams and Thin-Walled Members
Chapter 7: Transformations of Stress and Strain
Chapter 8: Principal Stresses Under a Given Loading
Chapter 9: Deflection of Beams
Chapter 10: Columns
Chapter 11: Energy Methods
A. Moments of Areas
B. Typical Properties of Selected Materials Used in Engineering
C. Properties of Rolled-Steel Shapes
D. Beam Deflections and Slopes
E. Fundamentals of Engineering Examination