Statistics for Engineers and Scientists 3rd Edition, William Navidi Solution Manual
Statistics for Engineers and Scientists stands out for its crystal clear presentation of applied statistics. Suitable for a one or two semester course, the book takes a practical approach to methods of statistical modeling and data analysis that are most often used in scientific work. Statistics for Engineers and Scientists features a unique approach highlighted by an engaging writing style that explains difficult concepts clearly, along with the use of contemporary real world data sets to help motivate students and show direct connections to industry and research. While focusing on practical applications of statistics, the text makes extensive use of examples to motivate fundamental concepts and to develop intuition.
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Theory and Applications of Digital Speech Processing Lawrence Rabiner, Ronald Schafer Solution Manual0 out of 5
For graduate students in digital signal processing, and undergraduate students in Electrical and Computer Engineering. Also suitable for practicing engineers in speech processing.
Clear, up-to-date, hands-on coverage of digital speech processing.
This new text presents the basic concepts and theories of speech processing with clarity and currency, while providing hands-on computer-based laboratory experiences for students. The material is organized in a manner that builds a strong foundation of basics first, and then concentrates on a range of signal processing methods for representing and processing the speech signal.
Probability, Statistics, and Random Processes For Electrical Engineering, 3/E 3rd Edition Alberto Leon-Garcia Solution Manual0 out of 5
While helping students to develop their problem-solving skills, the author motivates students with practical applications from various areas of ECE that demonstrate the relevance of probability theory to engineering practice.
Advanced Semiconductor Fundamentals, 2/E 2nd Edition Robert F. Pierret Solution Manual0 out of 5
For introductory graduate-level courses on solid-state devices.
This book presents the underlying functional formalism routinely used in describing the operational behavior of solid state devices.
Quality Improvement, 9/E 9th Edition Dale H. Besterfield Solution Manual0 out of 5
For undergraduate and graduate-level courses in Quality Control, Statistical Process Control, Quality Improvement, and Quality Assurance. This book will be valuable in programs such as Quality Improvement, Lean Six Sigma, Quality Control, and Statistical Process Control; in Associate Degree in Quality and other technical programs; in Baccalaureate programs in Engineering, Technology, Health Care, Education, and Business; and in Masters Degree programs in business.
Formerly titled Quality Control, the field’s most accessible introduction to quality has been renamed and revamped to focus on quantitative aspects of quality improvement. New chapters on Lean Enterprise, Six Sigma, Experimental Design, and Taguchi’s Quality Engineering have been added, and this new Ninth Edition adds comprehensive coverage of fundamental statistical quality improvement concepts. A practical state-of-the-art approach is stressed throughout, and sufficient theory is presented to ensure that students develop a solid understanding of basic quality principles. To improve accessibility, probability and statistical techniques are presented through simpler math or developed via tables and charts. As with previous editions, this text is written to serve a widely diverse audience of students, including the growing number of “math shy” individuals who must play key roles in quality improvement.
Aerodynamics for Engineers, 6/E 6th Edition John J. Bertin, Russell M. Cummings Solution Manual0 out of 5
For junior/senior and graduate-level courses in Aerodynamics, Mechanical Engineering, and Aerospace Engineering
Revised to reflect the technological advances and modern application in Aerodynamics, the Sixth Edition of Aerodynamics for Engineers merges fundamental fluid mechanics, experimental techniques, and computational fluid dynamics techniques to build a solid foundation for students in aerodynamic applications from low-speed through hypersonic flight. It presents a background discussion of each topic followed by a presentation of the theory, and then derives fundamental equations, applies them to simple computational techniques, and compares them to experimental data.
Nonlinear Systems, 3/E 3rd Edition Hassan K. Khalil Solution Manual0 out of 5
For a first-year graduate-level course on nonlinear systems. It may also be used for self-study or reference by engineers and applied mathematicians.
The text is written to build the level of mathematical sophistication from chapter to chapter. It has been reorganized into four parts: Basic analysis, Analysis of feedback systems, Advanced analysis, and Nonlinear feedback control.
Power Systems Analysis, 2/E 2nd Edition Arthur R. Bergen, Vijay Vittal Solution Manual0 out of 5
For senior/graduate-level courses in Power System Analysis.
Keeping pace with the major changes in the structure and operation of the electric utility industry, this is the first text on power system analysis that explores the issues and shows how power system operation will be affected by the changes in the industry. It incorporates state-of-the-art, computer-based power system analysis and shows students how to apply each modern analysis tool in designing and improving an expansion of an existing power system.
Foundations of MEMS, 2/E 2nd Edition Chang Liu Solution Manual0 out of 5
For courses in Micro-Electro-Mechanical Systems (MEMS) taken by advanced undergraduate students, beginning graduate students, and professionals.
Foundations of MEMS is an entry-level text designed to systematically teach the specifics of MEMS to an interdisciplinary audience. Liu discusses designs, materials, and fabrication issues related to the MEMS field by employing concepts from both the electrical and mechanical engineering domains and by incorporating evolving microfabrication technology — all in a time-efficient and methodical manner. A wealth of examples and problems solidify students’ understanding of abstract concepts and provide ample opportunities for practicing critical thinking.
Medical Imaging Signals and Systems Jerry L. Prince, Jonathan Links Solution Manual0 out of 5
For courses in medical imaging systems.
With signal processing as its foundation, this text covers the most important imaging modalities in radiology: projection radiography, x-ray computed tomography, nuclear medicine, ultrasound imaging, and magnetic resonance imaging. Organized into parts to emphasize key overall conceptual divisions, Medical Imaging is most appropriate for engineering students who have taken the prerequisite signals and systems courses as well as elementary probability.
Feedback Control Systems, 5/E 5th Edition Charles L. Phillips, John Parr Solution Manual0 out of 5
For junior/senior-level Control Theory courses in Electrical, Mechanical, and Aerospace Engineering.