Arduino Measurements in Science: Advanced Techniques and Data Projects
Autor Richard J. Smytheen Limba Engleză Paperback – 27 sep 2021
Explore the full capabilities of your Arduino. Whether you need to measure light, heat, mass, force, or conductivity, this book can be used as a complete reference guide for making virtually any scientific measurement with your PC or Linux based system and the Arduino microcontroller.
You'll apply the Arduino and sensors to take measurements at the macro-, milli-, micro-, nano- and pico-sensitivity ranges. By working through the projects in this book, you’ll learn how to apply these techniques in the lab or field in areas such as weighing samples at the gram or milligram levels, measuring water temperature to a tenth of a degree, or its conductivity in milli or micro Siemens. With these projects, you can reliably measure, store, and experiment with a wide range of scientific data.
Arduino Measurements in Science features a novel approach and several little known techniques to measure data that requires only basic and accessible hardware – perfect for the home or school workshop!
What You’ll Learn
- Make basic scientific measurements with PCs, and Linux based computing systems
- Review techniques for weighing measurements down into the double and even single digit milligram
- Use inexpensive sensors and displays to quantify and validate sensor data
- Incorporate weighing scales, electrometers, magnetic and static field detectors, motion and vibration detectors, and more
- Understand the possible noise and accuracy problems that can occur and best practices to refine your projects
- See the benefits of data validation for graphical data display
Who Is This Book For
Readers looking to acquire the basic science and engineering skills required to assemble fundamental measurement systems to implement with the simple hand tools found in most home or school workshops.
Preț: 335.69 lei
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Specificații
ISBN-13: 9781484267806
ISBN-10: 148426780X
Pagini: 693
Ilustrații: XLIII, 693 p. 413 illus., 280 illus. in color.
Dimensiuni: 178 x 254 x 48 mm
Greutate: 1.26 kg
Ediția:1st ed.
Editura: Apress
Colecția Apress
Locul publicării:Berkeley, CA, United States
ISBN-10: 148426780X
Pagini: 693
Ilustrații: XLIII, 693 p. 413 illus., 280 illus. in color.
Dimensiuni: 178 x 254 x 48 mm
Greutate: 1.26 kg
Ediția:1st ed.
Editura: Apress
Colecția Apress
Locul publicării:Berkeley, CA, United States
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Cuprins
Chapter 1: Capacitance and Charge.- Chapter 2: Current.- Chapter 3: Heat and Temperature.- Chapter 4: Light, Optics, and Photoelectric Effects.- Chapter 5: Magnetics, Magnetoresistance, and Hall Effects.- Chapter 6: Motion and Vibration.- Chapter 7: Resistance and Conductivity.- Chapter 8: Voltage.- Chapter 9: Weight, Mass, and Force .- Chapter 10: Data Collection, Storage, and Networking.- Chapter 11: Powering Experiments.
Notă biografică
Richard J. Smythe attended Brock University in its initial years of operation in southern Ontario and graduated with a four year honours degree in chemistry with minors in mathematics and physics prior to attending the University of Waterloo for a master’s degree in analytical chemistry and computing science and a doctorate in analytical chemistry. After a post-doctoral fellowship at the State University of New York at Buffalo in electro-analytical chemistry Richard went into business in 1974 as Peninsula Chemical Analysis Ltd. Introduced in 1966 to time-shared computing with paper tapes, punched cards, BASIC prior to Fortran IV at Waterloo, the PDP 11 mini-computers and finally the PC, Richard has maintained a currency in physical computing using several computer languages and scripting codes. Professionally Richard has functioned as a commercial laboratory owner and is currently a consulting analytical chemist, a civil forensic scientist as PCA Ltd., a full partner in Walters Forensic Engineering in Toronto, Ontario and senior scientist for Contrast Engineering in Halifax Nova Scotia. A large portion of Richard's professional career consists of devising methods by which a problem that ultimately involves making one or more fundamental measurements can be solved by using the equipment at hand or using a readily available “off-the shelf/ out of the box” facility to provide the data required.
Textul de pe ultima copertă
Explore the full capabilities of your Arduino. Whether you need to measure light, heat, mass, force, or conductivity, this book can be used as a complete reference guide for making virtually any scientific measurement with your PC or Linux based system and the Arduino microcontroller.
You'll apply the Arduino and sensors to take measurements at the macro-, milli-, micro-, nano- and pico-sensitivity ranges. By working through the projects in this book, you’ll learn how to apply these techniques in the lab or field in areas such as weighing samples at the gram or milligram levels, measuring water temperature to a tenth of a degree, or its conductivity in milli or micro Siemens. With these projects, you can reliably measure, store, and experiment with a wide range of scientific data.
Arduino Measurements in Science features a novel approach and several little known techniques to measure data that requires only basic and accessible hardware – perfect for the home or school workshop!
You will:
- Make basic scientific measurements with PCs, and Linux based computing systems
- Review techniques for weighing measurements down into the double and even single digit milligram
- Use inexpensive sensors and displays to quantify and validate sensor data
- Incorporate weighing scales, electrometers, magnetic and static field detectors, motion and vibration detectors, and more
- Understand the possible noise and accuracy problems that can occur and best practices to refine your projects
- See the benefits of data validation for graphical data display
Caracteristici
Build, calibrate, and use inexpensive, completely new, novel sensors for making weight determinations with computers or microcontrollers Use this book as a single reference guide for making virtually all basic or fundamental scientific measurements with PCs, Linux based systems and the Arduino microcontrollers Apply these principles to broader scientific projects or experiments