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Statics and Strength of Materials for Construction, Engineering Technology, and Architecture: Theory, Analysis, and Application provides students and industry professionals with the necessary statics and strength of materials background for more innovative approaches to particular fields of engineering technology, construction engineering and management, civil engineering, and architectural technology. It presents an introduction to statics, a review of algebra and trigonometry, concepts of vectors, a classification of building structural systems, an overview of advanced topics in statics and strength of materials, and frameworks of real-world application projects. This book contains 19 chapters and discusses several topics related to statics and strength of materials, such as coplanar force systems; the equilibrium of particle and rigid bodies; design loads; beam and frame reactions; trusses; arches, cables, and pulleys; space force systems; centroid of areas; moment of inertia; friction; properties of materials; axial deformation; bending and shear stress; torsional stress; combined loading; stress transformation; deflection; and stress in columns. Each chapter includes an Instructor’s Solution Manual and Guide with instructional materials and comprehensive explanations of the related practice problems, critical thinking exercises, and application projects.
For courses in Statics, Strength of Materials, and Structural Principles in Architecture, Construction, and Engineering Technology. Statics and Strength of Materials for Architecture and Building Construction, Fourth Edition, offers students an accessible, visually oriented introduction to structural theory that doesn't rely on calculus. Instead, illustrations and examples of building frameworks and components enable students to better visualize the connection between theoretical concepts and the experiential nature of real buildings and materials. This new edition includes fully worked examples in each chapter, a companion website with extra practice problems, and expanded treatment of load tracing.
Statics and Strength of Materials for Construction, Engineering Technology, and Architecture: Theory, Analysis, and Application provides students and industry professionals with the necessary statics and strength of materials background for more innovative approaches to particular fields of engineering technology, construction engineering and management, civil engineering, and architectural technology. It presents an introduction to statics, a review of algebra and trigonometry, concepts of vectors, a classification of building structural systems, an overview of advanced topics in statics and strength of materials, and frameworks of real-world application projects. This book contains 19 chapters and discusses several topics related to statics and strength of materials, such as coplanar force systems; the equilibrium of particle and rigid bodies; design loads; beam and frame reactions; trusses; arches, cables, and pulleys; space force systems; centroid of areas; moment of inertia; friction; properties of materials; axial deformation; bending and shear stress; torsional stress; combined loading; stress transformation; deflection; and stress in columns. Each chapter includes an Instructor's Solution Manual and Guide with instructional materials and comprehensive explanations of the related practice problems, critical thinking exercises, and application projects.
Unique in perspective, approach, and coverage, this book is written specifically to introduce architectural, construction and civil engineering technicians to elementary engineering concepts, design principles, and practices. Using a practical, non-classical, non-calculus approach, it combines -- in one volume -- full coverage of the statics, strengths of materials, and building structure analysis/design concepts that technicians must master for the demands of today's changing workplace. Provides nearly 180 examples and over 200 supporting illustrations and photographs, including photos of buildings under construction and in sequence. Contains a very comprehensive set of tables of structural products and their properties. For anyone studying or interested in architectural technology, architectural engineering technology, structural technology, structural engineering technology, civil engineering technology, construction engineering technology, or construction management.
This algebra-based text is designed specifically for Engineering Technology students, using both SI and US Customary units. All example problems are fully worked out with unit conversions. Unlike most textbooks, this one is updated each semester using student comments, with an average of 80 changes per edition.
This book, framed in the processes of engineering analysis and design, presents concepts in mechanics of materials for students in two-year or four-year programs in engineering technology, architecture, and building construction; as well as for students in vocational schools and technical institutes. Using the principles and laws of mechanics, physics, and the fundamentals of engineering, Mechanics of Materials: An Introduction for Engineering Technology will help aspiring and practicing engineers and engineering technicians from across disciplines—mechanical, civil, chemical, and electrical—apply concepts of engineering mechanics for analysis and design of materials, structures, and machine components. The book is ideal for those seeking a rigorous, algebra/trigonometry-based text on the mechanics of materials.
"The seventh edition of Applied Statics and Strength of Materials presents an elementary, analytical, and practical approach to the principles and physical concepts of statics and strength of materials. It is written at an appropriate mathematics level for engineering technology students, using algebra, trigonometry, and analytic geometry. An in-depth knowledge of calculus is not required for understanding the text or solving the problems"--
Simplified Structural Analysis and Design for Architects covers the basics of structural analysis and design in clear, practical terms. The book clarifies complex engineering topics through accessible, detailed examples and sample problems. Early chapters discuss the principles of statics, strength of materials, and structural analysis which represent the underlying basic material of structures and structural technology. The second part of the text focuses on steel structures, wood structures, and concrete structures, and outlines the design methods of some structural elements in a simplified manner and using some typical design examples. This edition includes two new chapters on the analysis of indeterminate structures and the simplified analysis of concrete indeterminate structures, as well as clearer figures and tables printed throughout. The final chapters of the book discuss the analysis of indeterminate structures. Concise and to the point, Simplified Structural Analysis and Design for Architects is particularly suitable for undergraduate and graduate architecture courses and courses in structural technology. The book is also a useful tool for practicing architects wishing to review the topic, and architecture graduates who are preparing for the licensing examination. Rima Taher earned her doctorate in civil engineering and building technology from École Nationale des Ponts et Chaussées in Paris. She is a senior university lecturer in the College of Architecture and Design and a part-time instructor in the Department of Civil and Environmental Engineering at the New Jersey Institute of Technology. She is a practicing civil/structural engineer through her consulting firm in New Jersey, Taher Engineering, LLC. Dr. Taher is an expert in the field of design and construction of low-rise buildings for high winds and hurricanes. She has given presentations on this subject to the Chilean Ministry of Education and the Inter-American Development Bank and at the annual conference of the Construction Specifications Institute in Canada in 2011. Dr. Taher serves as president of the Structural Engineering Institute Chapter at the North Jersey branch of the American Society of Civil Engineers.