Arduino






Referencia rápida (Hoja en PDF):




Libros:

Rafael Enríquz Herrador,
Guía de Usuario de Arduino en español (libro PDF)

José Manuel Ruiz Gutiérrez,

Brian Evans
Arduino Programming Notebook en español (libro PDF)


Sitio oficial Arduino:
http://www.arduino.cc/


Papers:

Jed Brody and Max Brown (2017).
"Transient heat conduction in a heat fin"
American Journal of Physics 85 (8), 582.

Asier Marzo, Adrian Barnes, and Bruce W. Drinkwater (2017).
"TinyLev: A multi-emitter single-axis acoustic levitator"
Review of Scientific Instruments 88, 085105.

Tomasz Kawalec and Aleksandra Sierant (2017).
"The parametric resonance-from LEGO Mindstorms to cold atoms"
European Journal of Physics 38(4), 045001.

Silveira, Sérgio, Girardi, Mauricio (2017).
"Development of an experimental Arduino kit for teaching Modern Physics in High School"
Revista Brasileira Ensino de Física 39(4), e4502.

Spencer N. Axani (2017).
"An easy-to-build desktop muon detector"
Physics Today, DOI:10.1063/PT.6.1.20170614a

Spencer N. Axani, Janet M. Conrad, Conor Kirby (2017).
"The Desktop Muon Detector: A simple, physics-motivated machine- and electronics-shop project for university students"
https://arxiv.org/abs/1606.01196

A M B Goncalves, C R Cena and D F Bozano (2017).
"Driven damped harmonic oscillator resonance with an Arduino"
Physics Education, 52(4), 043002.

Mike McCaughey (2017).
"An Arduino-Based Magnetometer"
The Physics Teacher 55(5), 274.

F. Bouquet, J. Bobroff, M. Fuchs-Gallezot, L. Maurines (2016).
"Project-based physics labs using low-cost open-source hardware"
https://arxiv.org/abs/1601.06659

Varanis, M., Langone Silva, A., Ayres Brunetto, P.H., Ferreira Gregolin, R. (2016).
"Instrumentation for mechanical vibrations analysis in the time domain and frequency domain using the Arduino platform"
Revista Brasileira de Ensino de Física, 38(1), 1301.

Zachariadou, K., Yiasemides, K., & Trougkakos, N. (2012).
"A low-cost computer-controlled Arduino-based educational laboratory system for teaching the fundamentals of photovoltaic cells"
Eur. J. Phys. 33, 1599.

Vera, F., Rivera, R. & Ortíz, M. (2014).
"A simple experiment to measure the inverse square law of light in daylight conditions"
European Journal of Physics, 35, 015015.

Luiz Raimundo Moreira de Carvalho e Helio Salim de Amorim (2014),
"Observando as marés atmosféricas: Uma aplicação da placa Arduino com sensores de pressão barométrica e temperatura"
Revista Brasileira de Ensino de Física, 36, 3501.

Silva, R.B., Leal, L.S., Alves, L.S., Brandao, R.V., Alves, R.C.M., Klering, E.V., Pezzi, R.P. (2015)
"Open source weather stations: A research and technological development project"
Revista Brasileira de Ensino de Física, 37(1), 1505.

L. Baldini, C. Sgro, E. Andreoni, F. Angelini, A. Bianchi, J. Bregeon, F .Fidecaro, M. M. Massai, V. Merlin, J. Nespolo, S. Orselli & M. Pesce-Rollins (2014).
"Plasduino: An inexpensive, general purpose data acquisition framework for educational experiments"
http://arxiv.org/abs/1312.1805

Haugen, A. J., Moore, N. T. (2014),
"A model for including Arduino microcontroller programming in the introductory physics lab"
http://arxiv.org/abs/1407.7613

Kubínová, S., & Šlégr, J. (2015).
"Physics demonstrations with the Arduino board"
Physics Education, 50(4), 472.

Hernández, D., Trejo, H. & Ordoñez, E. (2015).
"Development of an exploration land robot using low-cost and Open Source platforms for educational purposes"
VII International Congress of Engineering Physics
Journal of Physics: Conference Series 582 (2015) 012007.



Proyecto PhysDuino:
http://lide.uhk.cz/prf/ucitel/slegrja1/physduino/


Electronics Lab: Simulador de Arduino y otros circuitos (Autodesk, libre):
https://circuits.io/