Architecture of Atwood Machine Props with Sensor-based Passive Infrared
DOI:
https://doi.org/10.12928/irip.v1i1.244Keywords:
Key words, Acceleration of Gravity, Atwood machine, PIR (Passive Infrared) sensorsAbstract
The aim of this research is to develop Atwood machine propswith sensor-based PIR (Passive Infrared) to determine the acceleration value of earth gravity. This type of research is an experiment conducted in the physics laboratory of Universitas Indraprasta PGRI. Atwood machine was developed by using PIR (Passive Infrared) sensors to detect the movement of the objects used. Based on the trialof the result of the data analysis experiment tool, theÂacceleration of gravity was obtained (9.87 ± 0.08) m/s2. Whereas the value of acceleration of gravity in the literature is 9,80665 m/s2. The obtained results shows that the acceleration of gravity obtained in this research is not much different from the acceleration value of gravity  found in the literature so that Atwood machine tool that is developed by using PIR sensor is recommended to be one alternative tool in determining the acceleration of earth gravity.
References
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[3] John Adler and Dida Nurdiansyah, Sistem Komputasi Gerak Lurus Beraturan (GLB) pada Pesawat Atwood Menggunakan Mikrokontroler (Accelerated Uniform Motion Computing System on Atwood Plane Using a Microcontroller), Unikom, 2017
[4] Handy Indra Regain Mosey and Benny Max Lumi, Penentuan Percepatan Gravitasi Lokal di Universitas SAM Ratulangi Manado Berdasarkan Teori Getaran Harmonik (Determination of Local Gravity Acceleration at SAM Ratulangi University Manado Based on Theory of Harmonic Vibration)
[5] Eka Putri Rinanthy, Hufri and Zulhendri Kamus, Pembuatan Alat Penentuan Percepatan Gravitasi Bumi Menggunakan Metode Pendulum Berbasis Sensor Cahaya LDR (Making a Determination Tool for Earth Gravity Acceleration Using the Pendulum Method Based on LDR Light Sensors), Pillar of Physics, vol. 8, 2016
[6] Mariusz Tarnopolski, On Atwood’s Machine with a Nonzero Mass String, American Association of Physics Teacher, vol 53, 2015, doi: 10.1119/1.4933154
[7] Barbara Pecori, Giacomo Torzo and Andrea Sconza, Harmonic and an-harmonic oscillations investigated by using a microcomputer-based Atwood’s machine, American Association of Physics Teacher, vol 67, 1999, doi: 10.1119/1.1923
[8] Deni Kurnia and Rizky Fitri Hidayatullah, Integrasi Teknik Pendeteksian Obyek Menggunakan Sensor PIR dengan Kontrol Pergerakan Sliding Camera pada Sistem Kemanan Bengkel (Integration of Object Detection Techniques Using a PIR Sensor with Movement Control of the Sliding Camera on the Workshop Security System), Jurnal SIMETRIS, vol. 7, no. 2, 2016, ISSN 2252-4983
[9] Deny Lopez, IsidoraCaprile, Fernando Corvacho and Orfa Reyes, Study of a variable mass Atwood’s machine using a smarthphone, The Physics Teacher, vol. 56, no. 3, 2018, p. 182-183
[10] Marthen Kanginan, Fisika SMA untuk Kelas X (High School Physics for Class 10), Erlangga, 2006.
[11] Wasino, Arif Maftukhin and Eko Setyadi Kurniawan, Pengembangan Pesawat Atwood Berbasis Sensor LDR (Light Dependent Resistor) sebagai alat peraga GLB dan GLBB (Atwood Airplane Development Based on LDR Sensor (Light Dependent Resistor) as Uniform Rectilinear Motion and Accelerated Uniform Motion props), Radiasi, vol. 3, no. 2, 2013.
[12] Imas Ratna Ermawaty, Y. Soenarto and Felicianda, Analisis Double Integral pada Momen Inersia dalam Pesawat Atwood Menggunakan Katrol dengan Penambahan Massa Beban (Integral Double Analysis at the Moment of Inertia in the Atwood Plane Using Pulleys with Load Mass Addition), Prosiding Kolokium Doktor dan Seminar Hasil Penelitian, 2017.
[13] Ganijanti Aby Sarojo, Edisi 5: Mekanika (Mechanics), Salemba Teknika, 2016.
[14] Disah Nur Afifah, Dewi Yulianawati, Nina Agustina, Ratu Dewi Sri Lestari and Muhamad Gina Nugraha, Metode Sederhana Menentukan Percepatan Gravitasi Bumi Menggunakan Aplikasi Tracker pada Gerak Parabola sebagai Media dalam Pembelajaran Fisika SMA (Simple Method to Determine Earth Gravity Acceleration Using Tracker Application on Parabolic Motion as a Media in High School Physics Learning), Prosiding Seminar Nasional Inovasi dan Pembelajaran Sains, Bandung, Juni 2015, ISBN: 978-19655-8-0.
[15] Zuly Budiarso and Eddy Nurraharjo, Sistem Monitoring Tingkat Ketinggian Air Bendungan Berbasis Mikrokontroler (Microcontroller Based Dam Water Level Monitoring System), Jurnal Dinamika Informatika, vol 3, no. 1, 2011
[16] Pema Chodon, et al, Passive Infrard (PIR) Sensor Based Security System, International Journal of Electrical, Electronic and Computer System, vol. 14, issue. 2 , 2013
[17] Shafiqul Abidin and Manu Ahuja, Infra Red Radiation Detection using Paassive Infrared Sensor, International Journal of Computer Applications, vol. 152, no. 5, 2016
[18] Jati Lestari and Grace Gata, Webcam Monitoring Ruangan Menggunakan Sensor Gerak PIR (Passive Infra Red) (Webcam Monitoring Room Using PIR (Passive Infra Red) Motion Sensor), BIT, vol. 8, no. 2, 2011, ISSN: 1893-9166
[19] Berri Parima dan Rozeff Pramana, Perancangan Sistem Keamanan Rumah Menggunakan Sensor Passive Infra Red Berbasis Mikrokontroler (Home Security System Design Using Microcontroller Based Passive Red Sensor), Teknik Elektro, 2013
[20] Syahrul, Jhon Adler and Andriana., Pengukur Percepatan Gravitasi Menggunakan Gerak Harmonik Sederhana Metode Bandul (Measuring Gravity Acceleration Using Simple Harmonic Motion of the Pendulum Method), Jurnal Teknik Komputer Unikom, vol. 2, no. 2, 2013, https://repository.unikom.ac.id/30330/1/2.syahrul-pengukur-percepatan-gravitasi.pdf diakses pada tanggal 28 Mei 2018
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2018-11-09
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