Analysis of RC circuits with the help of LabVIEW and data acquisition card for physics laboratory course
Öz
In this study, it is aimed to create a circuit and software that can be used in teaching RC circuits at the university level for physics laboratory courses. In this context, the change of the voltage on the capacitor and the current of the circuit during the charge/discharge of an RC circuit connected to DC voltage was taken into the computer environment with a data acquisition card (NI USB 6021) and LabVIEW program. The experimental procedure to be applied in the use of the teaching material (circuit and software) developed within the scope of the study was explained in detail. Furthermore, in order to test the accuracy of the circuit and software, experiments were performed using different resistors and capacitors and presented in the scope of the study. As a result, the importance of the developed experimental setup in terms of teaching was emphasized.
Anahtar Kelimeler
Physics education laboratory course RC circuit time constant capacitor LabVIEW
Kaynakça
- Pfeffer, H., Lockwood, J. and Kessler, E., Fermilab capacitor tree, IEEE Transaction s on Nuclear Science, 24, 3, 1352-1354, (1977).
- Pili, U., Violanda, R. and Pili, J., Using a digital voltmeter and a smartphone camera to investigate the RC circuit, Physics Education, 54, 3, 1-4, (2019).
- Ramos, R. and Devers, C., The iPad as a virtual oscilloscope for measuring time constants in RC and LR circuits, Physics Education, 55, 2, 1-4, (2020).
- Moya, A. A., An Arduino experiment to study charge–voltage relationships in capacitors, Physics Education, 54, 1, 1-4, (2019).
- Pereira, N. S. A., Measuring the RC time constant with Arduino, Physics Education, 51, 6, 1-10, (2016).
- Butlin, C. A., Using National Instruments LabVIEW™ Education Edition in schools, Physics Education, 46, 4, 461-468, (2011).
- Orquín, I., García-March, M-Á., de Córdoba, P. F., Urcheguía, J. F., Monsoriu, J. A., Introductory quantum physics courses using a LabVIEW multimedia module, Computer Applications in Engineering Education, 15, 124-133, (2007).
- Jensen, M.B., Using LabVIEW to demonstrate instrumentation principles, Analytical and Bioanalytical Chemistry, 400, 2673–2676, (2011).
- Belletti, A., Borromei, R., Ingletto, G., Teaching physical chemistry experiments with a computer simulation by LabVIEW, Journal of Chemical Education, 83, 9, 1353-1355, (2006).
- Çoramık, M. and Özdemir, E., Veri toplama kartı ve LabVIEW kullanılarak yay sabitinin belirlenmesi, Fen Bilimleri Öğretimi Dergisi, 9, 1, 111-126, (2021).
- Cioc, I. B., Oprea, S., Visan, D. A., Lita, I. and Lita, A. I, Remote measurements in educational laboratories using LabVIEW and DAQ cards, 39th International Spring Seminar on Electronics Technology (ISSE), 486 – 489, Pilsen, Czech Republic, (2016).
- Ishafit, I, Indratno, T. K, and Prabowo, Y. D., Arduino and LabVIEW-based remote data acquisition system for magnetic field of coils experiments, Physics Education, 55, 2, 1-7, (2020).
- Jinakheiw, T., Ratchakham, W., Thepnurat, M. and Tong-on, A., Using the Arduino with LabVIEW on moment of inertia experiment, Journal of Physics: Conference Series, Siam Physics Congress 2018 (SPC2018) A Creative Path to Sustainable Innovation, 1-6, Pitsanulok, Thailand, (2018).
- Puantha, R., Khammarew, W., Tong-on, A. and Saphet, P., The speed of sound in air of pipe acoustic resonance via the Arduino with LabVIEW interface, Physics Education, 54, 1, 1-4, (2019).
- Saphet, P., Tong-on, A. and Thepnurat, M., One dimensional two-body collisions experiment based on LabVIEW interface with Arduino, Journal of Physics: Conference Series, Siam Physics Congress 2017 (SPC2017), 1-6, (2017).
- Coramik, M., A simulation object with LabVIEW: simultimeter (simulated multimeter), Physics Education, 56, 2, 1-10, (2021).
- Serway, R. A. and Jewett, J. W., Physics for scientists and engineers with modern physics, Brooks/Cole, California, (2011).
- Keller, F. J., Gettys, W. E. and Skove, M. J., Physics 2, McGraw Hill, New York, (1993).
- Travis, J. and Kring, J., LabVIEW for everyone: Graphical programming made easy and fun, Prentice Hall, New Jersey, (2006).
- National Instruments Corporation, DAQ M series NI USB-621x user manual, (2009). https://www.ni.com/pdf/manuals/371931f.pdf, (05.01.2023)
Öz
Bu çalışmada, fizik laboratuvarı dersi için üniversite düzeyinde RC devrelerinin öğretiminde kullanılabilecek bir devre ve yazılım oluşturulması amaçlanmıştır. Bu kapsamda DC gerilime bağlı bir RC devresinin şarjı/deşarjı sırasında kondansatör üzerindeki gerilimin ve devre akımının değişimi bir veri toplama kartı (NI USB 6021) ve LabVIEW programı ile bilgisayar ortamına alınmıştır. Çalışma kapsamında geliştirilen öğretim materyalinin (devre ve yazılım) kullanımında uygulanacak deneysel prosedür detaylı olarak anlatılmıştır. Ayrıca devrenin ve yazılımın doğruluğunu test etmek amacıyla farklı dirençler ve kondansatörler kullanılarak deneyler yapılmış ve elde edilen sonuçlar çalışma kapsamında sunulmuştur. Sonuç olarak, geliştirilen deney düzeneğinin öğretim açısından önemi vurgulanmıştır.
Anahtar Kelimeler
Fizik eğitimi laboratuvar dersi RC devresi zaman sabiti kondansatör LabVIEW
Kaynakça
- Pfeffer, H., Lockwood, J. and Kessler, E., Fermilab capacitor tree, IEEE Transaction s on Nuclear Science, 24, 3, 1352-1354, (1977).
- Pili, U., Violanda, R. and Pili, J., Using a digital voltmeter and a smartphone camera to investigate the RC circuit, Physics Education, 54, 3, 1-4, (2019).
- Ramos, R. and Devers, C., The iPad as a virtual oscilloscope for measuring time constants in RC and LR circuits, Physics Education, 55, 2, 1-4, (2020).
- Moya, A. A., An Arduino experiment to study charge–voltage relationships in capacitors, Physics Education, 54, 1, 1-4, (2019).
- Pereira, N. S. A., Measuring the RC time constant with Arduino, Physics Education, 51, 6, 1-10, (2016).
- Butlin, C. A., Using National Instruments LabVIEW™ Education Edition in schools, Physics Education, 46, 4, 461-468, (2011).
- Orquín, I., García-March, M-Á., de Córdoba, P. F., Urcheguía, J. F., Monsoriu, J. A., Introductory quantum physics courses using a LabVIEW multimedia module, Computer Applications in Engineering Education, 15, 124-133, (2007).
- Jensen, M.B., Using LabVIEW to demonstrate instrumentation principles, Analytical and Bioanalytical Chemistry, 400, 2673–2676, (2011).
- Belletti, A., Borromei, R., Ingletto, G., Teaching physical chemistry experiments with a computer simulation by LabVIEW, Journal of Chemical Education, 83, 9, 1353-1355, (2006).
- Çoramık, M. and Özdemir, E., Veri toplama kartı ve LabVIEW kullanılarak yay sabitinin belirlenmesi, Fen Bilimleri Öğretimi Dergisi, 9, 1, 111-126, (2021).
- Cioc, I. B., Oprea, S., Visan, D. A., Lita, I. and Lita, A. I, Remote measurements in educational laboratories using LabVIEW and DAQ cards, 39th International Spring Seminar on Electronics Technology (ISSE), 486 – 489, Pilsen, Czech Republic, (2016).
- Ishafit, I, Indratno, T. K, and Prabowo, Y. D., Arduino and LabVIEW-based remote data acquisition system for magnetic field of coils experiments, Physics Education, 55, 2, 1-7, (2020).
- Jinakheiw, T., Ratchakham, W., Thepnurat, M. and Tong-on, A., Using the Arduino with LabVIEW on moment of inertia experiment, Journal of Physics: Conference Series, Siam Physics Congress 2018 (SPC2018) A Creative Path to Sustainable Innovation, 1-6, Pitsanulok, Thailand, (2018).
- Puantha, R., Khammarew, W., Tong-on, A. and Saphet, P., The speed of sound in air of pipe acoustic resonance via the Arduino with LabVIEW interface, Physics Education, 54, 1, 1-4, (2019).
- Saphet, P., Tong-on, A. and Thepnurat, M., One dimensional two-body collisions experiment based on LabVIEW interface with Arduino, Journal of Physics: Conference Series, Siam Physics Congress 2017 (SPC2017), 1-6, (2017).
- Coramik, M., A simulation object with LabVIEW: simultimeter (simulated multimeter), Physics Education, 56, 2, 1-10, (2021).
- Serway, R. A. and Jewett, J. W., Physics for scientists and engineers with modern physics, Brooks/Cole, California, (2011).
- Keller, F. J., Gettys, W. E. and Skove, M. J., Physics 2, McGraw Hill, New York, (1993).
- Travis, J. and Kring, J., LabVIEW for everyone: Graphical programming made easy and fun, Prentice Hall, New Jersey, (2006).
- National Instruments Corporation, DAQ M series NI USB-621x user manual, (2009). https://www.ni.com/pdf/manuals/371931f.pdf, (05.01.2023)
Ayrıntılar
| Birincil Dil | İngilizce |
|---|---|
| Konular | Uygulamalı Matematik (Diğer) |
| Bölüm | Araştırma Makalesi |
| Yazarlar | |
| Erken Görünüm Tarihi | 6 Temmuz 2023 |
| Yayımlanma Tarihi | 7 Temmuz 2023 |
| Gönderilme Tarihi | 20 Şubat 2023 |
| Yayımlandığı Sayı | Yıl 2023 Cilt: 25 Sayı: 2 |