Studi Penentuan Kalor Jenis Air dan Larutan Garam Menggunakan Mikrokontroler Arduino Uno
DOI:
https://doi.org/10.30599/jipfri.v3i2.462Keywords:
Specific heat, Microcontroller, Arduino UnoAbstract
This research was conducted to determine specific heat of pure water and salt solution using the calorimeter measurement method based on the Arduino Uno microcontroller. The salt solution and pure water solution were heated by the heating wire with 2.4 A and 0.54 Ω. The temperature of the pure water and the salt solution was measured using the Arduino Uno microcontroller and DS18B20 temperature sensor. In this study, the Cv of pure water and salt solution has been found.
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References
Ackermann, T. (1957). Hydration of H+ and OH- ions in water from heat capacity measurements. Discussions of the Faraday Society, 24, 180.
Badamasi, Y. A. (2014). The working principle of an Arduino. 11th International Conference on Electronics, Computer and Computation (ICECCO).
Dean, R. N., & Rane, A. K. (2013). A Digital Frequency-Locked Loop System for Capacitance Measurement. IEEE Transactions on Instrumentation and Measurement, 62(4), 777–784
González, T.J., Torres, S.R., Blaya, R.P., Toledo, M.A., Jiménez, B.M., & Soto, V.F. (2019). Design and Calibration of a Low-Cost SDI-12 Soil Moisture Sensor. Sensors.
Grolier, J. P. E., Benson, G. C., & Picker, P. (1975). Simultaneous measurements of heat capacities and densities of organic liquid mixtures. Systems containing ketones. Journal of Chemical & Engineering Data, 20(3), 243–246.
Halliday, D., Resnick, R., Walker. (1997). Fundamenthal of Physics-Extended, 5th, John Wiley & Sons, New York.
Hoffmann, T., Eilebrecht, B., & Leonhardt, S. (2011). Respiratory Monitoring System on the Basis of Capacitive Textile Force Sensors. IEEE Sensors Journal, 11(5), 1112–1119.
Kondalkar, V. V., Ryu, G., Lee, Y., & Lee, K. (2019). Development of highly sensitive and stable humidity sensor for real-time monitoring of dissolved moisture in transformer-insulating oil. Sensors and Actuators B: Chemical.
Putra, VGV & Purnomosari, E. (2015). Pengantar Eksperimen Fisika. Yogyakarta: CV. Mulia Jaya. ISBN: 978.602.72713.0.2.
Putra, VGV., Ngadiono, & Purnomosari, E. (2016). Pengantar Listrik Magnet dan Terapannya. Yogyakarta: CV. Mulia Jaya. ISBN 978-602-72713-2-6 1.
Putra, V G V, (2017), Pengantar Fisika Dasar, CV. Mulia Jaya Publisher, Yogyakarta.
Putra, VGV., Ngadiono, & Purnomosari, E. (2019). Pengantar Praktikum Mekatronika Tekstil. Yogyakarta: CV. Mulia Jaya. ISBN : 9786025165832.
Picker, P., Leduc, P.-A., Philip, P. R., & Desnoyers, J. E. (1971). Heat capacity of solutions by flow microcalorimetry. The Journal of Chemical Thermodynamics. 3(5), 631–642.
Raine, H. C., Richards, R. B., & Ryder, H. (1945). The heat capacity, heat of solution, and crystallinity of polythene. Transactions of the Faraday Society, 41, 56
Salvo, P., Di Francesco, F., Costanzo, D., Ferrari, C., Trivella, M. G., & De Rossi, D. (2010). A Wearable Sensor for Measuring Sweat Rate. IEEE Sensors Journal, 10(10), 1557–1558.
Sreejith K R ,Shyamkumar P.G, Revathy P. Appu, (2015), A low cost automated specific heat capacity meter for liquids, Ernakulam, International Conference on Trends in Automation, Communications and Computing Technology India.
Tirono, M., Sabit, A. (2011). Efek Suhu Pada Proses Pengarangan Terhadap Nilai Kalor Arang Tempurung Kelapa (Coconut Shell Charcoal). JURNAL NEUTRINO. Vol.3