Introduction to Engineering: A Project-Based Method

Häftad, Engelska, 2019

Av Tomas Materdey, Materdey Tomas, Materdey,

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Produktinformation

Utgivningsdatum2019-08-29
FormatHäftad
SpråkEngelska
Antal sidor277
FörlagKendall/Hunt Publishing Co ,U.S.
ISBN9781792407215

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Project 1: Importance of an Engineering Field/A Day at Work/How to Become an Engineer in that Field/Information of Interest/Delivery/Specific Engineering Project1.1 Project 1 –Engineering Fields1.1.1 What to Do?1.1.2 What to Write in the Reports?1.2 Brainstorming1.3 Presentation Skills, Report Writing, References Formatting1.4 Logbook1.5 Team Web Page1.6 What is Engineering?1.6.1 Continuing Education1.6.2 Management & Technical/ Engineering Ethics1.6.3 What is the Difference between Science and Engineering?1.6.4 Engineering Design Process1.6.5 Input (independent variable)/Output (dependent variable) System Diagram1.6.6 Data Modeling1.6.7 PredictionProject 2: Design for Predictability & Data Modeling2.1 Project 2 –Engineering Design: Data Modeling and System Predictability2.2 Data Collection: Systematic and Random Error Reduction2.3 Human Factor2.4 Excel: Built-in Functions, Elementary Math Functions, Coefficients vs. Independent Variable, XY Scatter Plot (Scatter with only Markers and Scatter with Smooth Lines), Chart Layouts (Chart Title and Axis Titles), Solver Add-in, Copy Columns of Data into Excel, Text-toColumn, Swapping Two Columns of Data, Sorting Data2.4.1 Excel Built-in Functions and Elementary Math Functions2.4.2 Data Modeling with Excel –Cubic Polynomial2.4.3 Data Modeling with Excel –Other Polynomial Models2.5 Full Polynomial Model & Engineering vs. Highest Order Polynomial & Science2.6 Calculation of the Constant Acceleration of Gravity g From a pendulum data2.7 Non-linear Exponential Models & NIST Ultrasonic Response vs. Metal Distance2.8 Notations, Formulas and Dimensional Analysis, Units, Accuracy and Significant Figures, Scientific Notation2.8.1 Notations2.8.2 Physics Formulas and Dimensional Analysis2.8.3 Units2.8.5 Scientific Notation2.8.6 Accuracy and Significant Figures2.9 Estimation: Adopting a Simple Model and Establishing a Method of Calculation2.10 Problem Solving: Diagrams, Equations, Math Calculations and CheckProject 3 Virtual Instrument vs. Physical Instrument3.1 Project 3A –Developing Virtual Instruments3.2 Introduction to LabVIEW3.2.1 How to Locate Different Elements within the Front Panel and the Block Diagram3.3 Circuit Analysis: Series and Parallel, Ohm's Law3.3.1 Circuit Analysis with LabVIEW I3.3.2 Implementation3.3.3 Saving a VI into a LabVIEW Library3.3.4 Circuit Analysis with LabVIEW II3.3.5 Implementation3.3.6 Circuit Analysis with LabVIEW III3.3.7 Implementation3.4 LabVIEW Sub Virtual Instruments: Terminal Patterns, Edit Icon, Select a VI Programming Function3.4.1 Circuit Analysis with LabVIEW IV3.4.2 Implementation3.5 Scaling up Applications: Sub VI/Subroutine/Super-operator: Advantages and Disadvantages3.6 Project 3B -VI for Solving Complex Circuits using Matrices3.6.1 Loop Analysis3.6.2 Solution using Matrices3.6.3 Implementation3.6.4 How do these Three Equations from Loop Analysis Lead to the Equations we got from Doing Series and Parallel CombinationsProject 4 Virtual Instrument for Specific Application4.1 Project 4 -Developing Virtual Instruments for a Client4.1.1 Suggested LabVIEW Elements for each Project4.1.2 Part II Assigned Modifications for each Project4.2 Plotting a Function with LabVIEW: For Loop (Functions/Programming/Structures), Evaluation of a Single Variable Array (Functions/Mathematics/Scripts & Formulas/1D & 2D Evaluations), Bundle (Functions/ Programming/Cluster Class & Variant)4.2.1 Introduction to Function Plotting4.2.2 Generating the Time Series4.2.3 Plotting a Function with LabVIEW4.2.4 Smoother Plot and Time Series Resolution: N and ?4.2.5 How to Change the Plotting Interval4.3 Time of Flight with LabVIEW: Less? or Greater? (Functions/Programming/Comparisons), Case Structure (Functions/Programming/Structures), Formula Node (Functions/Programming/Structures), Numeric Constant (Functions/Programming/Numeric), String Constant (Functions/Programming/String)4.3.1 Physics of the Time of Flight4.3.2 LabVIEW Implementation4.3.3 Testing the Time-of-flight Virtual Instrument4.3.4 Using the Virtual Instrument to Find the Maximum Initial Velocity up to a Given Number of Digits of Precision4.4 Sound Wave Superposition: Formula Waveform (Functions/Signal Processing/Waveform Generation), Shift Register and For Loop (Functions/Programming/Structures), Play Waveform (Functions/Programming/Graphics & Sound/Sound/Play Waveform), FFT (Functions/Signal Processing/ Transforms), Absolute Value (Functions/Programming/ Numeric)4.4.1 Introduction to Sinusoids4.4.2 Superposition of Two Sinusoids4.4.3 Spectrum of a Sum of Sinusoids4.5 Binary Numbers and A/D and D/A Conversions4.5.1 Analog to Digital Conversion (A/D)4.5.2 Digital to Analog Conversion (D/A)4.5.3 The Binary Dot4.5.4 Power and Limitation of a Digital Computer4.6 Data Modeling and Random Noise: Array (Controls/ Array, Matrix & Clusters), XY Graph (Controls/ Graph), Random Number (0-1) (Functions/Programming/Numeric), Build Array (Functions/Programming/ Array), Eval Single–Variable Array (Functions/Mathematics/Scripts & Formula/1D & 2D Evalution), Gaussian Peak Fit (Functions/Mathematics/Fitting)Project 5 Data Modeling with Matlab5.1 Project 55.2 Matlab: importdata, sort, polyfit, polyval, struct2cell, cell2mat, for, if, input, figure, plot, subplot, axis, xlabel, ylabel, title, strcat, num2str5.2.1 Introduction to MatLab5.2.2 Introduction to MatLab -Transition from Analog to Digital Waves5.2.3 Introduction to MatLab –Matrices5.2.4 Introduction to MatLab –Matrices & For Loop5.2.5 Data Modeling with Matlab –Project 55.2.6 Data Modeling with Matlab –Project 5 (II)Project 6 Visualizing Motion in 2D & 3D with Matlab6.1 Project 6 –Moving Objects in 2D & 3D with Matlab6.2 Matlab: polar, plot3, surf, ezmesh, ezmeshc, ezsurf, ezsurfc, ezcontour, ezcontourf, ezplot3, ezpolar, sosurface6.2.1 Visualization with Matlab: Representing Sinusoids of Different Frequencies with ezplot and plot6.2.2 Visualization with Matlab: Moving 2D and 3D Gaussian PulsesAppendix A – Project Report TemplateAppendix B – Logbook QuestionsAppendix C – ClassworkAppendix D – HomeworkAppendix E – What is Engineering?Appendix F – Instructions for the Team WebmasterAppendix G – Report-Related Web Pages