Science and Engineering Projects Using the Arduino and Raspberry Pi: Explore STEM Concepts with Microcomputers
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Berkeley, CA
Apress L. P.
2020
|
| Schlagworte: | |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (255 Seiten) |
| ISBN: | 9781484258118 |
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| 505 | 8 | |a Intro -- Table of Contents -- About the Authors -- About the Technical Reviewer -- Acknowledgments -- Introduction -- Chapter 1: Key Technology Tools -- Arduino Basics -- Arduino Setup -- Ports and Interfaces -- Lessons Learned About the Arduino -- Raspberry Pi Basics -- Raspberry Pi Setup -- Lessons Learned About the Raspberry Pi -- Basic Electronics Definitions -- Summary -- Chapter 2: Data Logging Basics -- Data Logging with the Arduino -- Data Logging with the Raspberry Pi -- Summary -- Chapter 3: Physics and Mathematics Basics -- Temperature -- Force -- Pressure -- Basic Concept of Algebra -- Statistical Concepts -- Direct Compared to Inferred Measurements -- Summary -- Chapter 4: Simple Science and Engineering Projects -- Buoyancy of Air -- Arduino Buoyancy of Air Version -- Raspberry Pi Buoyancy of Air Version -- Buoyancy Recap -- Demonstrating Pressure -- Pressure/Force Recap -- Capturing Counts -- Counts Recap -- Summary -- Chapter 5: Advanced Physics and Mathematics for Science and Engineering -- Basics Terms of Calculus -- How Heat Transfer Works -- Conduction Heat Transfer -- Convection Heat Transfer -- Radiation Heat Transfer -- All Three Heat Transfer Mechanisms Work Together! -- Mass -- Velocity and Acceleration -- Inertia -- Momentum -- Friction -- More Advanced Aspects of Calculus -- Summary -- Chapter 6: Time/Condition-Dependent Projects -- Conduction Heat Transfer Through an Aluminum Rod -- Ensure Consistency in Temperature Sensor Readings -- Aluminum Rod Conduction Heat Transfer Recap -- Conduction Heat Transfer Through a Window -- Window Conduction Heat Transfer Recap -- Convection Heat Transfer -- Convection Heat Transfer Recap -- Zero Gravity Demonstration -- Zero Gravity Recap -- Measuring Frictional Force Projects -- Arduino Frictional Force Project -- Operational Schematic -- Arduino Frictional Force Recap | |
| 505 | 8 | |a Raspberry Pi Frictional Force Project -- Raspberry Pi Frictional Force Recap -- Acceleration Projects -- Acceleration Direct to Computer -- Acceleration with Computer Recap -- Acceleration Measurement Without a Computer -- Acceleration Without Computer Recap -- Summary -- Chapter 7: Light and Imaging Projects -- Radiation Heat Transfer -- Analysis of Heat Transfer -- Radiation Heat Transfer Recap -- Astrophotography with the Raspberry Pi Camera -- Assembling the Meade ETX-60AT and Raspberry Pi -- Astrophotography Meade ETX-60AT Setup Recap -- Assembling the 4 1/2-Inch Reflector Telescope and the Raspberry Pi -- Components Needed to Assemble the Raspberry Pi 3 Mounting System to the 4 1/2-Inch Telescope -- Reflector Telescope Setup Recap -- Basic Raspistill Previewing an Image with the Terminal Command Line -- Using Raspistill to Capture an Image -- More Advanced Raspistill Input Without a Keyboard -- Raspistill Image Capture Recap -- Astrophotography Raspberry Pi Python GUI -- Initiating the GUI -- PI_SN003 Raspberry PI GUI Recap -- Assembling the Raspberry Pi and Touchscreen in the Case -- Raspberry Pi, Touchscreen, and Case -- Modification of the Case and Assembly -- Components and Assembly of the Raspberry Pi Case Recap -- Camera Modifications, Camera Case, and Power Cables -- Camera Modifications -- Building the Camera Case -- Final Assembly of the Camera in the Case -- Power Cord Combination -- Camera, Camera Case, and Power Cord Assembly Recap -- Building the Shelf for the Meade ETX-60AT -- Shelf Components and Assembly Recap -- Helpful Hints Using the Telescope and Raspberry Pi -- Lessons Learned Recap -- Example Images and Enhancing Them Using a Video Capture GUI -- Example Images Taken with the Upgraded Meade ETX-60AT Astrophotography System -- Example Images Taken with the Upgraded 4 1/2-Inch Reflector Telescope Astrophotography System | |
| 505 | 8 | |a Making an Astronomical Video and Creating Enhanced Images -- Image Creation and Enhancement from a Video -- Recap of Example Images and Enhancement Techniques -- Summary -- Appendix: Reference Material -- Soldering Safety -- General Shop Safety -- Manufacturing Techniques -- Soldering -- Basic Arduino and Raspberry Pi Python Commands -- Some Key Arduino Code Commands -- Some Key Raspberry Pi Code Commands -- 3D Printing -- Computer-Aided Design Options -- Project Management for Engineering -- Decision Analysis for Engineering -- Thermal Conductivity Coefficients -- Coefficients of Friction -- Astronomy Terms -- Specifications of the Meade ETX-60AT -- Setup, Updates, and Repairs -- Helpful Books -- Index | |
| 650 | 4 | |a Arduino (Programmable controller) | |
| 650 | 4 | |a Raspberry Pi (Computer) | |
| 650 | 4 | |a Microcomputers-Programming | |
| 700 | 1 | |a Bradt, David |e Sonstige |4 oth | |
| 776 | 0 | 8 | |i Erscheint auch als |n Druck-Ausgabe |a Bradt, Paul |t Science and Engineering Projects Using the Arduino and Raspberry Pi |d Berkeley, CA : Apress L. P.,c2020 |z 9781484258101 |
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| contents | Intro -- Table of Contents -- About the Authors -- About the Technical Reviewer -- Acknowledgments -- Introduction -- Chapter 1: Key Technology Tools -- Arduino Basics -- Arduino Setup -- Ports and Interfaces -- Lessons Learned About the Arduino -- Raspberry Pi Basics -- Raspberry Pi Setup -- Lessons Learned About the Raspberry Pi -- Basic Electronics Definitions -- Summary -- Chapter 2: Data Logging Basics -- Data Logging with the Arduino -- Data Logging with the Raspberry Pi -- Summary -- Chapter 3: Physics and Mathematics Basics -- Temperature -- Force -- Pressure -- Basic Concept of Algebra -- Statistical Concepts -- Direct Compared to Inferred Measurements -- Summary -- Chapter 4: Simple Science and Engineering Projects -- Buoyancy of Air -- Arduino Buoyancy of Air Version -- Raspberry Pi Buoyancy of Air Version -- Buoyancy Recap -- Demonstrating Pressure -- Pressure/Force Recap -- Capturing Counts -- Counts Recap -- Summary -- Chapter 5: Advanced Physics and Mathematics for Science and Engineering -- Basics Terms of Calculus -- How Heat Transfer Works -- Conduction Heat Transfer -- Convection Heat Transfer -- Radiation Heat Transfer -- All Three Heat Transfer Mechanisms Work Together! -- Mass -- Velocity and Acceleration -- Inertia -- Momentum -- Friction -- More Advanced Aspects of Calculus -- Summary -- Chapter 6: Time/Condition-Dependent Projects -- Conduction Heat Transfer Through an Aluminum Rod -- Ensure Consistency in Temperature Sensor Readings -- Aluminum Rod Conduction Heat Transfer Recap -- Conduction Heat Transfer Through a Window -- Window Conduction Heat Transfer Recap -- Convection Heat Transfer -- Convection Heat Transfer Recap -- Zero Gravity Demonstration -- Zero Gravity Recap -- Measuring Frictional Force Projects -- Arduino Frictional Force Project -- Operational Schematic -- Arduino Frictional Force Recap Raspberry Pi Frictional Force Project -- Raspberry Pi Frictional Force Recap -- Acceleration Projects -- Acceleration Direct to Computer -- Acceleration with Computer Recap -- Acceleration Measurement Without a Computer -- Acceleration Without Computer Recap -- Summary -- Chapter 7: Light and Imaging Projects -- Radiation Heat Transfer -- Analysis of Heat Transfer -- Radiation Heat Transfer Recap -- Astrophotography with the Raspberry Pi Camera -- Assembling the Meade ETX-60AT and Raspberry Pi -- Astrophotography Meade ETX-60AT Setup Recap -- Assembling the 4 1/2-Inch Reflector Telescope and the Raspberry Pi -- Components Needed to Assemble the Raspberry Pi 3 Mounting System to the 4 1/2-Inch Telescope -- Reflector Telescope Setup Recap -- Basic Raspistill Previewing an Image with the Terminal Command Line -- Using Raspistill to Capture an Image -- More Advanced Raspistill Input Without a Keyboard -- Raspistill Image Capture Recap -- Astrophotography Raspberry Pi Python GUI -- Initiating the GUI -- PI_SN003 Raspberry PI GUI Recap -- Assembling the Raspberry Pi and Touchscreen in the Case -- Raspberry Pi, Touchscreen, and Case -- Modification of the Case and Assembly -- Components and Assembly of the Raspberry Pi Case Recap -- Camera Modifications, Camera Case, and Power Cables -- Camera Modifications -- Building the Camera Case -- Final Assembly of the Camera in the Case -- Power Cord Combination -- Camera, Camera Case, and Power Cord Assembly Recap -- Building the Shelf for the Meade ETX-60AT -- Shelf Components and Assembly Recap -- Helpful Hints Using the Telescope and Raspberry Pi -- Lessons Learned Recap -- Example Images and Enhancing Them Using a Video Capture GUI -- Example Images Taken with the Upgraded Meade ETX-60AT Astrophotography System -- Example Images Taken with the Upgraded 4 1/2-Inch Reflector Telescope Astrophotography System Making an Astronomical Video and Creating Enhanced Images -- Image Creation and Enhancement from a Video -- Recap of Example Images and Enhancement Techniques -- Summary -- Appendix: Reference Material -- Soldering Safety -- General Shop Safety -- Manufacturing Techniques -- Soldering -- Basic Arduino and Raspberry Pi Python Commands -- Some Key Arduino Code Commands -- Some Key Raspberry Pi Code Commands -- 3D Printing -- Computer-Aided Design Options -- Project Management for Engineering -- Decision Analysis for Engineering -- Thermal Conductivity Coefficients -- Coefficients of Friction -- Astronomy Terms -- Specifications of the Meade ETX-60AT -- Setup, Updates, and Repairs -- Helpful Books -- Index |
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| illustrated | Not Illustrated |
| index_date | 2024-07-03T19:50:44Z |
| indexdate | 2024-07-10T09:32:30Z |
| institution | BVB |
| isbn | 9781484258118 |
| language | English |
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| spelling | Bradt, Paul Verfasser aut Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers Berkeley, CA Apress L. P. 2020 ©2020 1 Online-Ressource (255 Seiten) txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Intro -- Table of Contents -- About the Authors -- About the Technical Reviewer -- Acknowledgments -- Introduction -- Chapter 1: Key Technology Tools -- Arduino Basics -- Arduino Setup -- Ports and Interfaces -- Lessons Learned About the Arduino -- Raspberry Pi Basics -- Raspberry Pi Setup -- Lessons Learned About the Raspberry Pi -- Basic Electronics Definitions -- Summary -- Chapter 2: Data Logging Basics -- Data Logging with the Arduino -- Data Logging with the Raspberry Pi -- Summary -- Chapter 3: Physics and Mathematics Basics -- Temperature -- Force -- Pressure -- Basic Concept of Algebra -- Statistical Concepts -- Direct Compared to Inferred Measurements -- Summary -- Chapter 4: Simple Science and Engineering Projects -- Buoyancy of Air -- Arduino Buoyancy of Air Version -- Raspberry Pi Buoyancy of Air Version -- Buoyancy Recap -- Demonstrating Pressure -- Pressure/Force Recap -- Capturing Counts -- Counts Recap -- Summary -- Chapter 5: Advanced Physics and Mathematics for Science and Engineering -- Basics Terms of Calculus -- How Heat Transfer Works -- Conduction Heat Transfer -- Convection Heat Transfer -- Radiation Heat Transfer -- All Three Heat Transfer Mechanisms Work Together! -- Mass -- Velocity and Acceleration -- Inertia -- Momentum -- Friction -- More Advanced Aspects of Calculus -- Summary -- Chapter 6: Time/Condition-Dependent Projects -- Conduction Heat Transfer Through an Aluminum Rod -- Ensure Consistency in Temperature Sensor Readings -- Aluminum Rod Conduction Heat Transfer Recap -- Conduction Heat Transfer Through a Window -- Window Conduction Heat Transfer Recap -- Convection Heat Transfer -- Convection Heat Transfer Recap -- Zero Gravity Demonstration -- Zero Gravity Recap -- Measuring Frictional Force Projects -- Arduino Frictional Force Project -- Operational Schematic -- Arduino Frictional Force Recap Raspberry Pi Frictional Force Project -- Raspberry Pi Frictional Force Recap -- Acceleration Projects -- Acceleration Direct to Computer -- Acceleration with Computer Recap -- Acceleration Measurement Without a Computer -- Acceleration Without Computer Recap -- Summary -- Chapter 7: Light and Imaging Projects -- Radiation Heat Transfer -- Analysis of Heat Transfer -- Radiation Heat Transfer Recap -- Astrophotography with the Raspberry Pi Camera -- Assembling the Meade ETX-60AT and Raspberry Pi -- Astrophotography Meade ETX-60AT Setup Recap -- Assembling the 4 1/2-Inch Reflector Telescope and the Raspberry Pi -- Components Needed to Assemble the Raspberry Pi 3 Mounting System to the 4 1/2-Inch Telescope -- Reflector Telescope Setup Recap -- Basic Raspistill Previewing an Image with the Terminal Command Line -- Using Raspistill to Capture an Image -- More Advanced Raspistill Input Without a Keyboard -- Raspistill Image Capture Recap -- Astrophotography Raspberry Pi Python GUI -- Initiating the GUI -- PI_SN003 Raspberry PI GUI Recap -- Assembling the Raspberry Pi and Touchscreen in the Case -- Raspberry Pi, Touchscreen, and Case -- Modification of the Case and Assembly -- Components and Assembly of the Raspberry Pi Case Recap -- Camera Modifications, Camera Case, and Power Cables -- Camera Modifications -- Building the Camera Case -- Final Assembly of the Camera in the Case -- Power Cord Combination -- Camera, Camera Case, and Power Cord Assembly Recap -- Building the Shelf for the Meade ETX-60AT -- Shelf Components and Assembly Recap -- Helpful Hints Using the Telescope and Raspberry Pi -- Lessons Learned Recap -- Example Images and Enhancing Them Using a Video Capture GUI -- Example Images Taken with the Upgraded Meade ETX-60AT Astrophotography System -- Example Images Taken with the Upgraded 4 1/2-Inch Reflector Telescope Astrophotography System Making an Astronomical Video and Creating Enhanced Images -- Image Creation and Enhancement from a Video -- Recap of Example Images and Enhancement Techniques -- Summary -- Appendix: Reference Material -- Soldering Safety -- General Shop Safety -- Manufacturing Techniques -- Soldering -- Basic Arduino and Raspberry Pi Python Commands -- Some Key Arduino Code Commands -- Some Key Raspberry Pi Code Commands -- 3D Printing -- Computer-Aided Design Options -- Project Management for Engineering -- Decision Analysis for Engineering -- Thermal Conductivity Coefficients -- Coefficients of Friction -- Astronomy Terms -- Specifications of the Meade ETX-60AT -- Setup, Updates, and Repairs -- Helpful Books -- Index Arduino (Programmable controller) Raspberry Pi (Computer) Microcomputers-Programming Bradt, David Sonstige oth Erscheint auch als Druck-Ausgabe Bradt, Paul Science and Engineering Projects Using the Arduino and Raspberry Pi Berkeley, CA : Apress L. P.,c2020 9781484258101 |
| spellingShingle | Bradt, Paul Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers Intro -- Table of Contents -- About the Authors -- About the Technical Reviewer -- Acknowledgments -- Introduction -- Chapter 1: Key Technology Tools -- Arduino Basics -- Arduino Setup -- Ports and Interfaces -- Lessons Learned About the Arduino -- Raspberry Pi Basics -- Raspberry Pi Setup -- Lessons Learned About the Raspberry Pi -- Basic Electronics Definitions -- Summary -- Chapter 2: Data Logging Basics -- Data Logging with the Arduino -- Data Logging with the Raspberry Pi -- Summary -- Chapter 3: Physics and Mathematics Basics -- Temperature -- Force -- Pressure -- Basic Concept of Algebra -- Statistical Concepts -- Direct Compared to Inferred Measurements -- Summary -- Chapter 4: Simple Science and Engineering Projects -- Buoyancy of Air -- Arduino Buoyancy of Air Version -- Raspberry Pi Buoyancy of Air Version -- Buoyancy Recap -- Demonstrating Pressure -- Pressure/Force Recap -- Capturing Counts -- Counts Recap -- Summary -- Chapter 5: Advanced Physics and Mathematics for Science and Engineering -- Basics Terms of Calculus -- How Heat Transfer Works -- Conduction Heat Transfer -- Convection Heat Transfer -- Radiation Heat Transfer -- All Three Heat Transfer Mechanisms Work Together! -- Mass -- Velocity and Acceleration -- Inertia -- Momentum -- Friction -- More Advanced Aspects of Calculus -- Summary -- Chapter 6: Time/Condition-Dependent Projects -- Conduction Heat Transfer Through an Aluminum Rod -- Ensure Consistency in Temperature Sensor Readings -- Aluminum Rod Conduction Heat Transfer Recap -- Conduction Heat Transfer Through a Window -- Window Conduction Heat Transfer Recap -- Convection Heat Transfer -- Convection Heat Transfer Recap -- Zero Gravity Demonstration -- Zero Gravity Recap -- Measuring Frictional Force Projects -- Arduino Frictional Force Project -- Operational Schematic -- Arduino Frictional Force Recap Raspberry Pi Frictional Force Project -- Raspberry Pi Frictional Force Recap -- Acceleration Projects -- Acceleration Direct to Computer -- Acceleration with Computer Recap -- Acceleration Measurement Without a Computer -- Acceleration Without Computer Recap -- Summary -- Chapter 7: Light and Imaging Projects -- Radiation Heat Transfer -- Analysis of Heat Transfer -- Radiation Heat Transfer Recap -- Astrophotography with the Raspberry Pi Camera -- Assembling the Meade ETX-60AT and Raspberry Pi -- Astrophotography Meade ETX-60AT Setup Recap -- Assembling the 4 1/2-Inch Reflector Telescope and the Raspberry Pi -- Components Needed to Assemble the Raspberry Pi 3 Mounting System to the 4 1/2-Inch Telescope -- Reflector Telescope Setup Recap -- Basic Raspistill Previewing an Image with the Terminal Command Line -- Using Raspistill to Capture an Image -- More Advanced Raspistill Input Without a Keyboard -- Raspistill Image Capture Recap -- Astrophotography Raspberry Pi Python GUI -- Initiating the GUI -- PI_SN003 Raspberry PI GUI Recap -- Assembling the Raspberry Pi and Touchscreen in the Case -- Raspberry Pi, Touchscreen, and Case -- Modification of the Case and Assembly -- Components and Assembly of the Raspberry Pi Case Recap -- Camera Modifications, Camera Case, and Power Cables -- Camera Modifications -- Building the Camera Case -- Final Assembly of the Camera in the Case -- Power Cord Combination -- Camera, Camera Case, and Power Cord Assembly Recap -- Building the Shelf for the Meade ETX-60AT -- Shelf Components and Assembly Recap -- Helpful Hints Using the Telescope and Raspberry Pi -- Lessons Learned Recap -- Example Images and Enhancing Them Using a Video Capture GUI -- Example Images Taken with the Upgraded Meade ETX-60AT Astrophotography System -- Example Images Taken with the Upgraded 4 1/2-Inch Reflector Telescope Astrophotography System Making an Astronomical Video and Creating Enhanced Images -- Image Creation and Enhancement from a Video -- Recap of Example Images and Enhancement Techniques -- Summary -- Appendix: Reference Material -- Soldering Safety -- General Shop Safety -- Manufacturing Techniques -- Soldering -- Basic Arduino and Raspberry Pi Python Commands -- Some Key Arduino Code Commands -- Some Key Raspberry Pi Code Commands -- 3D Printing -- Computer-Aided Design Options -- Project Management for Engineering -- Decision Analysis for Engineering -- Thermal Conductivity Coefficients -- Coefficients of Friction -- Astronomy Terms -- Specifications of the Meade ETX-60AT -- Setup, Updates, and Repairs -- Helpful Books -- Index Arduino (Programmable controller) Raspberry Pi (Computer) Microcomputers-Programming |
| title | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_auth | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_exact_search | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_exact_search_txtP | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_full | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_fullStr | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_full_unstemmed | Science and Engineering Projects Using the Arduino and Raspberry Pi Explore STEM Concepts with Microcomputers |
| title_short | Science and Engineering Projects Using the Arduino and Raspberry Pi |
| title_sort | science and engineering projects using the arduino and raspberry pi explore stem concepts with microcomputers |
| title_sub | Explore STEM Concepts with Microcomputers |
| topic | Arduino (Programmable controller) Raspberry Pi (Computer) Microcomputers-Programming |
| topic_facet | Arduino (Programmable controller) Raspberry Pi (Computer) Microcomputers-Programming |
| work_keys_str_mv | AT bradtpaul scienceandengineeringprojectsusingthearduinoandraspberrypiexplorestemconceptswithmicrocomputers AT bradtdavid scienceandengineeringprojectsusingthearduinoandraspberrypiexplorestemconceptswithmicrocomputers |