College of Engineering (COE)
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- Center Program SnapshotLee, Fred C.; Boroyevich, Dushan (Virginia Tech, 2009-04)This book provides a comprehensive introduction to CPES research, education,and outreach.
- A History of Fort Caswell, North CarolinaMarchman, James F. III (Baptist Student Union, North Carolina State University, 1965)A brief history of Fort Caswell, near Southport, North Carolina, at the mouth of the Cape Fear River.
- Introduction to Linear, Time-Invariant, Dynamic Systems for Students of EngineeringHallauer, William L. Jr. (Virginia Tech, 2016-06-02)
This is a complete college textbook, including a detailed table of contents, seventeen chapters (each with a set of relevant homework problems), a list of references, two appendices, and a detailed index. The book is intended to enable students to: - Solve first-, second-, and higher-order, linear, time-invariant (LTI) ordinary differential equations (ODEs) with initial conditions and excitation, using both time-domain and Laplace-transform methods; - Solve for the frequency response of an LTI system to periodic sinusoidal excitation and plot this response in standard form; - Explain the role of the time constant in the response of a first-order LTI system, and the roles of natural frequency, damping ratio, and resonance in the response of a second-order LTI system; - Derive and analyze mathematical models (ODEs) of low-order mechanical systems, both translational and rotational, that are composed of inertial elements, spring elements, and damping devices; - Derive and analyze mathematical models (ODEs) of low-order electrical circuits composed of resistors, capacitors, inductors, and operational amplifiers; - Derive (from ODEs) and manipulate Laplace transfer functions and block diagrams representing output-to-input relationships of discrete elements and of systems; - Define and evaluate stability for an LTI system; - Explain proportional, integral, and derivative types of feedback control for single-input, single-output (SISO), LTI systems; - Sketch the locus of characteristic values, as a control parameter varies, for a feedback-controlled SISO, LTI system; - Use MATLAB as a tool to study the time and frequency responses of LTI systems. The book’s general organization - Chapters 1-10 deal primarily with the ODEs and behaviors of first-order and second-order dynamic systems; - Chapters 11 and 12 discuss the ODEs and behaviors of mechanical systems having two degrees of freedom, i.e., fourth-order systems; - Chapters 13 and 14 introduce classical feedback control; - Chapter 15 presents the basic features of proportional, integral, and derivative types of classical control; - Chapters 16 and 17 discuss methods for analyzing the stability of classical control systems. The general minimum prerequisite for understanding this book is the intellectual maturity of a junior-level (third-year) college student in an accredited four-year engineering curriculum. A mathematical second-order system is represented in this book primarily by a single second-order ODE, not in the state-space form by a pair of coupled first-order ODEs. Similarly, a two-degrees-of-freedom (fourth-order) system is represented by two coupled second-order ODEs, not in the state-space form by four coupled first-order ODEs. The book does not use bond graph modeling, the general and powerful, but complicated, modern tool for analysis of complex, multidisciplinary dynamic systems. The homework problems at the ends of chapters are very important to the learning objectives, so the author attempted to compose problems of practical interest and to make the problem statements as clear, correct, and unambiguous as possible. A major focus of the book is computer calculation of system characteristics and responses and graphical display of results, with use of basic (not advanced) MATLAB commands and programs. The book includes many examples and homework problems relevant to aerospace engineering, among which are rolling dynamics of flight vehicles, spacecraft actuators, aerospace motion sensors, and aeroelasticity. There are also several examples and homework problems illustrating and validating theory by using measured data to identify first- and second-order system dynamic characteristics based on mathematical models (e.g., time constants and natural frequencies), and system basic properties (e.g., mass, stiffness, and damping). Applications of real and simulated experimental data appear in many homework problems. The book contains somewhat more material than can be covered during a single standard college semester, so an instructor who wishes to use this as a one-semester course textbook should not attempt to cover the entire book, but instead should cover only those parts that are most relevant to the course objectives.
About the author
William L. Hallauer, Jr. is an Adjunct Professor in the Department of Aerospace and Ocean Engineering at Virginia Tech. Contact the author at usafadfemciv01@gmail.com Education: - B.S. in Mechanical Engineering, Stanford University, 1961-65; - S.M. in Aeronautics and Astronautics, Massachusetts Institute of Technology, 1965-66; - Ph.D. in Aeronautics and Astronautics, Stanford University, 1969-74.
Employment in higher education: - Virginia Polytechnic Institute and State University (Aerospace and Ocean Engineering, Mechanical Engineering), 1974-87, 1989-91, 2000-05; - United States Air Force Academy (Engineering Mechanics), 1987-89, 1994-99. Employment in industry: - Boeing Company (Commercial Airplane Group), 1966-69; - Lockheed Missiles and Space Company, 1973-74; - Dynacs Engineering Company, Inc. (contractor for the U.S. Air Force), 1992-94. Primary technical areas of learning, teaching, and research: - Structures, structural dynamics, and fluid-structure interaction (theory and computation); - Experimental analysis of structural dynamics, including electrical and electromechanical systems used in experiments; - Active control of vibration in highly flexible structures; - Composition of research articles and instructional material. - The Last Western Flyer: The Western Auto CenturyMarchman, James F. III (2004)A treasure trove of pictures and history, The Last Western Flyer chronicles one of the most successful small town franchise operations in 20th Century America, Western Auto. It grew from humble beginnings as a penny mailer sent from the kitchen of a Kansas City home to over 5,000 retail outlets under its Circle Arrow signs. Western Auto brought everything from tires, spark plugs, socks, vitamin pills, fishing lures, radios and more, including its famous Western Flyer bikes to America’s major cities and small towns.
- Proceedings of the 15th North American Mine Ventilation Symposium(Virginia Tech, Department of Mining and Minerals Engineering, 2015-06-20)These conference proceedings consist of 70 peer-reviewed technical papers representing subjects related to underground mine ventilation. All were presented at the 15th North American Mine Ventilation Symposium (NAMVS) from June 20, 2015 to June 25, 2015, held on the Virginia Tech campus in Blacksburg, Virginia. The included papers were selected by Symposium organizers because they reflect both present day critical challenges that underground mine ventilation professionals face as well as new innovative ideas that will propel the profession into the future. The content in the proceedings represents topics that include diesel exhaust and other contaminants in the mine atmosphere, dust in the underground mine environment, mine atmospheric monitoring, mine fans, mine fires, mine gases, mine heating and cooling, case studies, ventilation planning, and ventilation system design.
- Student Symposium: 16th Annual School of Biomedical Engineering & Sciences Graduate Student Research Symposium(Virginia Tech, 2017-05-10)
The Virginia Tech - Wake Forest University Biomedical Engineering Society (BMES) Student Chapter hosts an annual Graduate Student Research Symposium to provide students with the opportunity to interact and exchange research ideas with colleagues and industry leaders. This symposium promotes research collaboration between the two campuses and cutting edge facilities, such as the Wake Forest Institute for Regenerative Medicine, the Comprehensive Cancer Center of Wake Forest University Baptist Medical Center, the Virginia-Maryland Regional College of Veterinary Medicine, and the Virginia Tech Carilion Research Institute.
20 oral presentations from graduating Ph.D. and M.S. students. 70 poster presentations from non-graduating students. Topics include injury and musculoskeletal biomechanics, biomedical imaging, cell and tissue engineering, and nanotechnology for medical applications.
- The Ware Lab 20th Anniversary(Virginia Tech. College of Engineering, 2018)This booklet commemorates the 20th anniversary of the Ware Lab in 2018, and details services and programs offered by the lab.