AKUISISI DATA UNTUK PERCOBAAN FISIKA BERBASIS ARDUINO UNO DI SMKN 1 GAMBUT

Main Article Content

Muhammad Rizali
Agustina Hotma Uli
Madschen Sia Mei Ol Siska
Ikna Urwatul Wusko

Abstract

Lacks of facility and equipments in physics/science experiment is the problem in school activity, due to prising and availability of the equipment. The lack of facility and equipment can cause lower quality of student education. Solutions needed to solve this problem. In this community service, Arduino Uno with sensor physics and data acquisition experiment equipment introduced. Introduction about input-output pin in Arduino, temperature sessor LM35, coding language, and air temperature data acquisition, explained to student and teacher. The results are the experiment well done, learning that interests students to participate actively, additional knowledge for the teacher, and the higher motivation of students and teachers to study further.

Downloads

Download data is not yet available.

Article Details

Section
Articles

References

Arifin, J., Herryawan, P. and Gultom, B., 2018. Deteksi Suhu Ruang Server dan Penggerak Kipas Berbasis Arduino Uno Dengan Report SMS. Electrician, 12(2), pp.38-47.
Jamaluddin, J., Kade, A. and Nurjannah, N., 2015. Analisis pelaksanaan praktikum menggunakan KIT IPA fisika di SMP Se-Kecamatan Sojol Kabupaten Donggala. JPFT (Jurnal Pendidikan Fisika Tadulako Online), 3(1), pp.6-13.
Utama, Y.A.K., 2016. Perbandingan Kualitas Antar Sensor Suhu dengan Menggunakan Arduino Pro Mini. e-NARODROID: Jurnal Berkala Program Studi Sistem Komputer, 2(2), pp.145-150.
Nurjanah, S., 2017. Pengembangan Alat Peraga Kalor Jenis pada Pokok Bahasan Suhu Dan Kalor Berbasis Arduino (Doctoral dissertation, Pendidikan Fisika-FKIP).
Palittin, I.D., 2015. Rancang Bangun Alat Pengukur Suhu Menggunakan Sensor Lm35 Dan Mikrokontroler Arduino Uno. Magistra: Jurnal Keguruan Dan Ilmu Pendidikan, 2(3), pp.255-262.
Martins, J.P., 2016. A data acquisition system for water heating and cooling experiments. Physics Education, 52(1), p.015019.
Adi, P.D.P. and Kitagawa, A., 2018. Performance evaluation WPAN of RN-42 bluetooth based (802.15. 1) for sending the multi-sensor LM35 data temperature and raspBerry pi 3 Model B for the database and internet gateway. International Journal of Advanced Computer Science and Applications (IJACSA), 9(12).
Pratiwi, A., 2013. Pembelajaran dengan Praktikum Sederhana untuk Mereduksi Miskonsepsi Siswa pada Materi Fluida Statis di Kelas XI SMA Negeri 2 Tuban. Inovasi Pendidikan Fisika, 2(3).
Rizali, M. and Irwandy, I., 2015. Pengaruh temperatur permukaan sel surya terhadap daya pada kondisi eksperimental dan nyata.
Susilawati, S., Doyan, A., Sutrio, S., Kosim, K. and Taufik, M., 2018. Desiminasi Penggunaan Alat Peraga untuk Penguatan Konsep IPA Guru-Guru SMP Se-NTB. Jurnal Pendidikan dan Pengabdian Masyarakat, 1(1).
Trancã, D.C., Rosner, D., Tãtãroiu, R., Stegaru, S.C., Surpãţeanu, A. and Peišić, M., 2018, September. Precision and linearity of analog temperature sensors for industrial IoT devices. In 2018 17th RoEduNet Conference: Networking in Education and Research (RoEduNet) (pp. 1-6). IEEE.
Utama, Y.A.K., 2016. Perbandingan Kualitas Antar Sensor Suhu dengan Menggunakan Arduino Pro Mini. e-NARODROID: Jurnal Berkala Program Studi Sistem Komputer, 2(2), pp.145-150.