Mechanics of Materials
Published on 27. November 2002
Book
Hardback
640 pages
978-0-534-42168-7 (ISBN)
Description
MECHANICS OF MATERIALS - an extensive revision of STRENGTH OF MATERIALS, Fourth Edition, by Pytel and Singer - covers all the material found in other Mechanics of Materials texts. What's unique is that Pytel and Kiusalaas separate coverage of basic principles from that of special topics. The authors also apply their time-tested problem solving methodology, which incorporates outlines of procedures and numerous sample problems to help ease students' transition from theory to problem analysis. The result? Your students get the broad introduction to the field that they need along with the problem-solving skills and understanding that will help them in their subsequent studies. To demonstrate, the authors introduce the topic of beams using ideal model as being perfectly elastic, straight bar with a symmetric cross section in ch. 4. They also defer the general transformation equations for stress and strain (including Mohr's Circle) until the students have gained experience with the basics of simple stress and strain. Later, more complicated applications of the principles such as energy methods, inelastic behavior, stress concentrations, and unsymmetrical bending are discussed in ch.
11 - 13 eliminating the need to skip over material when teaching the basics.
11 - 13 eliminating the need to skip over material when teaching the basics.
Reviews / Votes
1. Stress. 2. Strain. 3. Torsion. 4. Shear and Moment in Beams. 5. Stresses in Beams. 6. Deflection of Beams. 7. Statically Indeterminate Beams. 8. Stresses Due to Combined Loads. 9. Composite Beams. 10. Columns. 11. Additional Beam Topics. 12. Special Topics. 13. Inelastic Action. Appendixes.More details
Language
English
Place of publication
CA
United States
Publishing group
Cengage Learning, Inc
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 258 mm
Width: 210 mm
Thickness: 29 mm
Weight
1190 gr
ISBN-13
978-0-534-42168-7 (9780534421687)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Professor Andrew Pytel received his Bachelor of Science Degree in Electrical Engineering in 1957, his M.S. in Engineering Mechanics in 1959, and his Ph.D in Engineering Mechanics in 1963; all from The Pennsylvania State University. In addition to his career at Penn State University, Professor Pytel was an Assistant Professor at the Rochester Institute of Technology in the Dept of Mechanical Engineering (1962-65), an Assistant Professor at Northeastern University in Boston (1965-67). He became a full Professor at The Penn State University in 1984 and a Professor Emeritus in 1995. Throughout his career Professor Pytel has taught many different courses and has been the recipient of many honors and awards. He has participated extensively with the American Society for Engineering Education and was named a Fellow of the ASEE in 2008. Jaan Kiusalaas, Professor Emeritus, Engineering Science and Mechanics, The Pennsylvania State University. Professor Kiusalaas received his Honors BS in Civil Engineering from the University of Adelaide, Australia, his M.S. in Civil Engineering and his Ph D. in Engineering Mechanics, both from Northwestern University. He has been a Professor at The Pennsylvania State University since 1963. He is also a Senior Postdoctoral Fellow of NASA's Marshall Space Flight Centre. Professor Kiusalaas' teaching experience includes such topics as Numerical Methods (including finite element and boundary element methods), and Engineering Mechanics ranging from introductory courses (statics & dynamics) to graduate level courses.
Content
1. Stress. 2. Strain. 3. Torsion. 4. Shear and Moment in Beams. 5. Stresses in Beams. 6. Deflection of Beams. 7. Statically Indeterminate Beams. 8. Stresses Due to Combined Loads. 9. Composite Beams. 10. Columns. 11. Additional Beam Topics. 12. Special Topics. 13. Inelastic Action. Appendixes.