Western Civilization: Ideas, Politics, and Society, Volume I: to 1789.pdf
Now in dynamic full color, SI Engineering Fundamentals: An Introduction To Engineering, 5e helps readers develop the strong problem-solving skills and solid foundation in fundamental principles they will need to become analytical, detail-oriented, and creative engineers. The book opens with an overview of what engineers do, an inside glimpse of the various areas of specialization, and a straightforward look at what it takes to succeed. The book then covers the basic physical concepts and laws that you'll encounter on the job. Professional Profiles throughout the text highlight the work of practicing engineers from around the globe, tying in the fundamental principles and applying them to professional engineering. Using a flexible modular format, the book demonstrates how engineers apply physical and chemical laws and principles, as well as mathematics, to design, test, and supervise the production of millions of parts, products, and services that people use every day.
..".this text does a good job of finding a reasonable compromise between clarity and thoroughness. The writing style is engaging. I like the inclusion of cartoons, and the overall layout is quite attractive. Yes, there is a clear sense of concern for the reader. Definitions, examples, and drawings are closely intertwined, making for a satisfying reading experience."
Dr. Saeed Moaveni, P.E., is a successful author, instructor, and engineering professional. He joined the mechanical engineering faculty at Minnesota State University at Mankato in 1990. Currently a Professor and the Chair of the Mechanical Engineering Department, he is a member of American Society for Engineering Education, the American Society of Mechanical Engineers, and the American Society of Heating, Ventilating, and Air Conditioning Engineers.
Part I: ENGINEERING AN EXCITING PROFESSION. 1. INTRODUCTION TO THE ENGINEERING PROFESSION. Engineering Work Is All Around You. Engineering as a Profession. Common Traits of Good Engineering. Engineering Disciplines. 2. PREPARING FOR AN ENGINEERING CAREER. Making the Transition from High School to College. Budgeting your Time. Study Habits and Strategies. Getting Involved with an Engineering Organization. Your Graduation Plan. 3. INTRODUCTION TO ENGINEERING DESIGN. Engineering Design Process. Additional Design Considerations. Teamwork. Project Scheduling and Task Chart. Engineering Standards and Codes. Water Standards in the United States. 4. ENGINEERING COMMUNICATION. Engineering Communication Skills and Presentation of Engineering Work. Basic Steps Involved in the Solutions of Engineering Problems. Written Communication. Oral Communication. Graphical Communication. 5. ENGINEERING ETHICS. Engineering Ethics. The Code of Ethics of the National Society of Engineers. Engineer's Creed. Part II: ENGINEERING FUNDAMENTALS. 6. FUNDAMENTAL DIMENSIONS AND UNITS. Fundamental Dimensions and Units. Systems of Units. Unit Conversion and Dimensional Homogeneity. Significant Digits (Figures). Components and Systems. Physical Laws and Observations. 7. LENGTH AND LENGTH-RELATED VARIABLES IN ENGINEERING. Length as a Fundamental Dimension. Ratio of Two Lengths Radians and Strain. Area. Volume. Second Moment of Area. 8. TIME AND TIME-RELATED VARIABLES IN ENGINEERING. Time as a Fundamental Dimension. Measurement of Time. Periods and Frequencies. Flow of Traffic. Engineering Variables Involving Length and Time. 9. MASS AND MASS-RELATED VARIABLES IN ENGINEERING. Mass as a Fundamental Dimension. Density, Specific Weight, Specific Gravity, and Specific Volume. Mass Flow Rate. Mass Moment of Inertia. Momentum. Conservation of Mass. 10. FORCE AND FORCE-RELATED VARIABLES IN ENGINEERING. Force. Newton's Laws in Mechanics. Moment, Torque-Force Acting at a Distance. Work-Force Acting Over a Distance. Pressure and Stress-Force Acting Over an Area. Linear Impulse-Force Acting Over Time. 11. TEMPERATURE AND TEMPERATURE-RELATED VARIABLES IN ENGINEERING. Temperature as a Fundamental Dimension. Temperature Difference and Heat Transfer. Thermal Comfort. Heating Values of Fuels. Degree Days and Energy Estimation. Temperature-Related Material Properties. 12. ELECTRIC CURRENT AND RELATED VARIABLES IN ENGINEERING. Electric Currents, Voltage, and Electric Power. Electric Circuits and Components. Electric Motors. Lighting Systems. 13. ENERGY AND POWER. Work, Mechanical Energy, and Thermal Energy. Conservation of Energy. Power. Efficiency. Energy Sources, Generation, and Consumption. Part III: COMPUTATIONAL ENGINEERING TOOLS. 14. COMPUTATIONAL ENGINEERING TOOLS: ELECTRONIC SPREADSHEETS. Microsoft Excel Basics. Excel Functions. Plotting with Excel. Matrix Computation with Excel. 15. COMPUTATIONAL ENGINEERING TOOLS: MATLAB. MATLAB Basics. MATLAB functions, Loop Control, and Conditional Statements. Plotting with MATLAB. Matrix Computations with MATLAB. Symbolic Mathematics with MATLAB. Part IV: ENGINEERING GRAPHICAL COMMUNICATION. 16. ENGINEERING DRAWINGS AND SYMBOLS. Mechanical Drawings. Civil, Electrical, and Electronic Drawings. Solid Modelling. Engineering Symbols. Part V: ENGINEERING MATERIAL SELECTION. 17. ENGINEERING MATERIALS. Material Selection and Origin. The Properties of Materials. Metals. Concrete. Wood, Plastics, Silicon, Glass, and Composites. Fluid Materials: Air and Water. Part VI: MATHEMATICS, STATISTICS, AND ENGINEERING ECONOMICS. 18. MATHEMATICS IN ENGINEERING. Mathematical Symbols and Greek Alphabet. Linear Models. Nonlinear Models. Exponential and Logarithmic Models. Matrix Algebra. Calculus. 19. PROBABILITY AND STATISTICS IN ENGINEERING. Probability-Basic Ideas. Statistics-Basic Ideas. Frequency Distributions. Measures of Central Tendency and Variation-Mean, Median, and Standard Deviation. Normal Distribution. 20. ENGINEERING ECONOMICS. Cash Flow Diagrams. Simple and Compound Interest. Future Worth of a Present Amount and Present Worth of a Future Amount. Effective Interest Rate. Present and Future Worth of Series Payment. Choosing the Best Alternatives-Decision Making. Excel Financial Functions.