PART I: ENGINEERING - AN EXCITING PROFESSION. 1. INTRODUCTION TO THE ENGINEERING PROFESSION. Engineering Work Is All Around You. Engineering as a Profession and Common Traits of Good Engineers. Common Traits of Good Engineers. Engineering Disciplines. Accreditation Board for Engineering and Technology (ABET). Summary. Problems. Impromptu Design I.. 2. PREPARING FOR AN ENGINEERING CAREER. Making the Transition from High School to College. Budgeting Your Time. Daily Studying and Preparation. Getting Involved with an Engineering Organization. Your Graduation Plan. Other Considerations. Summary. Problems. 3. INTRODUCTION TO ENGINEERING DESIGN. Engineering Design Process. Sustainability in Design. Engineering Economics. Material Selection. Teamwork. Common Traits of Good Teams. Conflict Resolution. Project Scheduling and Task Chart. Evaluating Alternatives. Patent, Trademark, and Copyright. Engineering Standards and Codes. Examples of Standards and Codes Organizations in the United States. Examples of International Standards and Codes. Drinking Water Standards in the United States. Outdoor Air Quality Standards in the United States. Indoor Air Quality Standards in the United States. Professional Profile. Design Cases. Summary. Problems. Impromptu Design II. 4. ENGINEERING COMMUNICATION. Communication Skills and Presentation of Engineering Work. Basic Steps Involved in the Solution of Engineering Problems. Human Presentation. Progress Report, Executive Summary, and Short Memos. Detailed Technical Report. Oral Communication and Presentation. Engineering Graphical Communication. Professional Profile. Summary. Problems. 5. ENGINEERING ETHICS. Engineering Ethics. The Code of Ethics of the National Society of Professional Engineers. Code of Ethics for Engineers. Engineer's Creed. Summary. Problems. Engineering Ethics: A Case Study From NSPE. PART II: ENGINEERING FUNDAMENTALS - CONCEPTS EVERY ENGINEER SHOULD KNOW. 6. FUNDAMENTAL DIMENSIONS AND UNITS. Engineering Problems and Fundamental Dimensions. System of Units. Unit Conversion. Dimensional Homogeneity. Numerical versus Symbolic Solutions. Significant Digits (Figures). Engineering Components and Systems. Physical Laws and Observations in Engineering. Learning Engineering Fundamental Concepts and Design Variables from Fundamental. Summary. Problems. 7. LENGTH AND LENGTH-RELATED PARAMETERS. Length as a Fundamental Dimension. Measurement of Length. Nominal Sizes versus Actual Sizes. Radians as a Ratio of Two Lengths. Strain as a Ratio of Two Lengths. Area. Volume. Second Moments of Areas. Summary. Problems. Impromptu Design III. An Engineering Marvel: The New York City Water Tunnel No. 3. 8. TIME AND TIME-RELATED PARAMETERS. Time as a Fundamental Dimension. Measurement of Time. Periods and Frequencies. Flow of Traffic. Engineering Parameters Involving Length and Time. Angular Motion. Summary. Problems. 9. MASS AND MASS-RELATED PARAMETERS. Mass as a Fundamental Dimension. Measurement of Mass. Density, Specific Volume, and Specific Gravity. Mass Flow Rate. Mass Moment of Inertia. Momentum. Conservation of Mass. Summary. Problems. Impromptu Design IV.. 10. FORCE AND FORCE-RELATED PARAMETERS. What We Mean By 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. Modulus of Elasticity, Modulus of Rigidity, and Bulk Modulus of Compressibility. Linear Impulse--Force Acting Over Time. Summary. Problems. Impromptu Design V. 11. TEMPERATURE AND TEMPERATURE-RELATED PARAMETERS Temperature as a Fundamental Dimension. Measurement of Temperature and Its Units. Temperature Difference and Heat Transfer. Thermal Comfort, Metabolic Rate, and Clothing Insulation. Some Temperature-Related Material Properties. Heating Values of Fuels. Degree-Days and Energy Estimation. Summary. Problems. 12. ELECTRIC CURRENT AND RELATED PARAMETERS. Electric Current as a Fundamental Dimension. Voltage. Direct Current and Alternating Current. Electrical Circuits and Components. Electric Motors. Lighting Systems. Summary. Problems. 13. ENERGY AND POWER. Work, Mechanical Energy, Thermal Energy. Conservation of Energy--First Law of Thermodynamics. Understanding What We Mean by Power. Watts and Horsepower. Efficiency. Energy Sources, Generation, Consumption. Summary. Problems. Impromptu Design VI. PART III: COMPUTATIONAL ENGINEERING TOOLS - USING AVAILABLE SOFTWARE TO SOLVE ENGINEERING PROBLEMS. 14. ELECTRONIC SPREADSHEETS. Microsoft Excel--Basic Ideas. Cells and Their Addresses. Creating Formulas in Excel. Using Excel Functions. Using Excel Logical Functions. Plotting with Excel. Matrix Computation with Excel. Curve Fitting with Excel. Summary. Problems. 15. MATLAB. MATLAB--Basic Ideas. Using MATLAB Built-in Functions. Plotting with MATLAB. Importing Excel and Other Data Files into MATLAB. Matrix Computations with MATLAB. Curve Fitting with MATLAB. Symbolic Mathematics with MATLAB. Summary. Problems. PART IV: ENGINEERING GRAPHICAL COMMUNICATION - CONVEYING INFORMATION TO OTHER ENGEINEERS, MACHINISTS, TECHNICIANS, AND MANAGERS. 16. ENGINEERING DRAWINGS AND SYMBOLS. Importance of Engineering Drawing. Orthographic Views. Dimensioning and Tolerancing. Isometric View. Sectional Views. Civil, Electrical, and Electronic Drawings. Solid Modeling. Why Do We Need Engineering Symbols? Examples of Common Symbols in Civil, Electrical, and Mechanical Engineering. Professional Profile. Summary. Problems. An Engineering Marvel: Boeing 777 Commercial Airplane. PART V: ENGINEERING MATERIAL SELECTION - AN IMPORTANT DESIGN DECISION. 17. ENGINEERING MATERIALS. Material Selection. Electrical, Mechanical, and Thermophysical Properties of Materials. Some Common Solid Engineering Materials. Some Common Fluid Materials. Summary. Problems. Impromptu Design VII. An Engineering Marvel: The Jet Engine. PART VI: MATHEMATICS, STATISTICS, AND ENGINEERING ECONOMICS - WHY ARE THEY IMPORTANT? 18. MATHEMATICS IN ENGINEERING. Mathematical Symbols and Greek Alphabet. Linear Models. Nonlinear Models. Exponential and Logarithmic Models. Matrix Algebra. Calculus. Differential Equations. Summary. Problems. 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. Summary. Problems. 20. ENGINEERING ECONOMICS. Cash Flow Diagrams. Simple and Compound Interest. Future Worth of a Present Amount. Effective Interest Rate. Present Worth of a Future Amount. Present Worth of Series Payment or Annuity. Future Worth of Series Payment. Summary of Engineering Economics Analysis. Choosing the Best Alternative--Decision Making. Excel Financial Functions. Summary. Problems.
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.
1. Introduction to Cognitive Psychology. 2. Cognition and the Brain: Basic Principles. 3. Perception. 4. Attention. 5. Short-Term and Working Memory. 6. Long-Term Memory: Basic Principles. 7. Everyday Memory and Memory Errors. 8. Knowledge. 9. Visual Imagery. 10. Language. 11. Problem Solving. 12. Reasoning and Decision Making.