PENENTUAN NILAI MOMEN MAGNET NEODYMIUM YANG BERGERAK DI DALAM PIPA ALUMINIUM DAN KUNINGAN DENGAN METODE ANALISIS VIDEO

Albertus Hariwangsa Panuluh; Yohanes Jeverson Bulu

doi:10.33369/jkf.4.3.229-236

Submitted

September 22, 2021

Accepted

January 21, 2022

Published

January 28, 2022

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Abstract

Telah dilakukan penelitian untuk menentukan nilai momen magnet dan mengetahui hubungan diameter dalam pipa terhadap nilai momen magnet neodymium yang bergerak di dalam pipa aluminium dan kuningan dengan metode analisis video. Dipakai sistem pesawat atwood untuk merancang prosedur percobaan pengambilan data. Salah satu beban yang digantungkan di ujung tali direkam pergerakannya menggunakan kamera panasonic Hc-V30. Kemudian file video tersebut dianalisis menggunakan software Logger Pro. Dari analisis tersebut diperoleh grafik posisi fungsi waktu. Kemudian dipilih data yang menunjukkan bahwa magnet telah bergerak dengan kecepatan konstan. Nilai kemiringan dari grafik sama dengan nilai kecepatan terminal dari gerak magnet di dalam pipa. Nilai kecepatan terminal tersebut dapat digunakan untuk memperoleh nilai koefisien redaman magnetik. Kemudian nilai koefisien redaman magnetik yang diperoleh digunakan untuk memperoleh nilai momen magnetik. Dari penelitian yang telah dilakukan dapat disimpulkan bahwa nilai koefisien redaman magnetik berbanding terbalik dengan diameter dalam pipa dan berbanding lurus dengan suseptibilitas bahan. Nilai momen magnet berbanding lurus dengan diameter dalam pipa dan berbanding terbalik dengan koefisien konduktivitas bahan.

Keywords

pipa aluminium dan kuningan magnet neodymium analisis video Logger Pro momen magnet

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Author Biographies

Albertus Hariwangsa Panuluh, Universitas Sanata Dharma

Pendidikan Fisika Universitas Sanata Dharma

Yohanes Jeverson Bulu, Universitas Sanata Dharma

Pendidikan Fisika Universitas Sanata Dharma

How to Cite

Panuluh, A. H., & Bulu, Y. J. (2022). PENENTUAN NILAI MOMEN MAGNET NEODYMIUM YANG BERGERAK DI DALAM PIPA ALUMINIUM DAN KUNINGAN DENGAN METODE ANALISIS VIDEO. Jurnal Kumparan Fisika, 4(3), 229–236. https://doi.org/10.33369/jkf.4.3.229-236

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References

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Pili U, Violanda R, Ceniza C. Measurement of g using a magnetic pendulum and a smartphone magnetometer. Phys Teach [Internet]. 2018 Mar 16;56(4):258–9. Available from: https://doi.org/10.1119/1.5028247
Arribas E, Escobar I, Suarez CP, Najera A, Beléndez A. Measurement of the magnetic field of small magnets with a smartphone: a very economical laboratory practice for introductory physics courses. Eur J Phys [Internet]. 2015;36(6):65002. Available from: http://dx.doi.org/10.1088/0143-0807/36/6/065002
Setiawan B, Septianto RD, Suhendra D, Iskandar F. Measurement of 3-axis magnetic fields induced by current wires using a smartphone in magnetostatics experiments. Phys Educ [Internet]. 2017;52(6):65011. Available from: http://dx.doi.org/10.1088/1361-6552/aa83e3
Patrinopoulos M, Kefalis C. Angular velocity direct measurement and moment of inertia calculation of a rigid body using a smartphone. Phys Teach [Internet]. 2015 Nov 13;53(9):564–5. Available from: https://doi.org/10.1119/1.4935774
Gulo NK, Panuluh AH. Pengukuran Modulus Young Senar Pancing Dengan Metode Analisis Frekuensi Dawai. J Kumparan Fis. 2020;3(3):209–14.
Hia S, Panuluh AH. Pengukuran Modulus Geser Baja Menggunakan Analisis Osilasi Pegas-Massa. J Teor dan Apl Fis. 2021;9(1):1–8.
Mendoza-Arenas JJ, Perico ELD, Fajardo F. Motion of a damped oscillating sphere as a function of the medium viscosity. Eur J Phys [Internet]. 2009;31(1):129–41. Available from: http://dx.doi.org/10.1088/0143-0807/31/1/012
Oktova R, Diana N. Penentuan koefisien viskositas air menggunakan metode getaran pegas dengan koreksi kedalaman penetrasi dan koreksi efek dinding. Berk Fis Indones. 2013;5(1):25–34.
Rada MKD, Panuluh AH. Penggunaan Aplikasi Logger Pro untuk Menentukan Nilai Viskositas Air. J Ilmu Fis dan Pembelajarannya. 2021;5(1):28–35.
Ireson G, Twidle J. Magnetic braking revisited: activities for the undergraduate laboratory. Eur J Phys [Internet]. 2008;29(4):745–51. Available from: http://dx.doi.org/10.1088/0143-0807/29/4/009
Giancoli DC. Physics: principles with applications. Boston: Pearson; 2016.
Donoso G, Ladera CL, Martín P. Magnet fall inside a conductive pipe: motion and the role of the pipe wall thickness. Eur J Phys [Internet]. 2009;30(4):855–69. Available from: http://dx.doi.org/10.1088/0143-0807/30/4/018
Syed M, Nuessle N. What a Metal Pipe Can Teach You About Magnetism. Phys Teach [Internet]. 2019 Apr 18;57(5):330–3. Available from: https://doi.org/10.1119/1.5098925
Tipler PA, Mosca G. Physics for scientists and engineers. Macmillan; 2007.

References

Suciarahmat A, Pramudya Y. Aplikasi Sensor Smartphone dalam Eksperimen Penentuan Percepatan Gravitasi. J Fis Indones. 2015;19(55):10–3.

Vogt P, Kuhn J. Analyzing simple pendulum phenomena with a smartphone acceleration sensor. Phys Teach [Internet]. 2012 Sep 10;50(7):439–40. Available from: https://doi.org/10.1119/1.4752056

Pili U, Violanda R, Ceniza C. Measurement of g using a magnetic pendulum and a smartphone magnetometer. Phys Teach [Internet]. 2018 Mar 16;56(4):258–9. Available from: https://doi.org/10.1119/1.5028247

Arribas E, Escobar I, Suarez CP, Najera A, Beléndez A. Measurement of the magnetic field of small magnets with a smartphone: a very economical laboratory practice for introductory physics courses. Eur J Phys [Internet]. 2015;36(6):65002. Available from: http://dx.doi.org/10.1088/0143-0807/36/6/065002

Setiawan B, Septianto RD, Suhendra D, Iskandar F. Measurement of 3-axis magnetic fields induced by current wires using a smartphone in magnetostatics experiments. Phys Educ [Internet]. 2017;52(6):65011. Available from: http://dx.doi.org/10.1088/1361-6552/aa83e3

Patrinopoulos M, Kefalis C. Angular velocity direct measurement and moment of inertia calculation of a rigid body using a smartphone. Phys Teach [Internet]. 2015 Nov 13;53(9):564–5. Available from: https://doi.org/10.1119/1.4935774

Gulo NK, Panuluh AH. Pengukuran Modulus Young Senar Pancing Dengan Metode Analisis Frekuensi Dawai. J Kumparan Fis. 2020;3(3):209–14.

Hia S, Panuluh AH. Pengukuran Modulus Geser Baja Menggunakan Analisis Osilasi Pegas-Massa. J Teor dan Apl Fis. 2021;9(1):1–8.

Mendoza-Arenas JJ, Perico ELD, Fajardo F. Motion of a damped oscillating sphere as a function of the medium viscosity. Eur J Phys [Internet]. 2009;31(1):129–41. Available from: http://dx.doi.org/10.1088/0143-0807/31/1/012

Oktova R, Diana N. Penentuan koefisien viskositas air menggunakan metode getaran pegas dengan koreksi kedalaman penetrasi dan koreksi efek dinding. Berk Fis Indones. 2013;5(1):25–34.

Rada MKD, Panuluh AH. Penggunaan Aplikasi Logger Pro untuk Menentukan Nilai Viskositas Air. J Ilmu Fis dan Pembelajarannya. 2021;5(1):28–35.

Ireson G, Twidle J. Magnetic braking revisited: activities for the undergraduate laboratory. Eur J Phys [Internet]. 2008;29(4):745–51. Available from: http://dx.doi.org/10.1088/0143-0807/29/4/009

Giancoli DC. Physics: principles with applications. Boston: Pearson; 2016.

Donoso G, Ladera CL, Martín P. Magnet fall inside a conductive pipe: motion and the role of the pipe wall thickness. Eur J Phys [Internet]. 2009;30(4):855–69. Available from: http://dx.doi.org/10.1088/0143-0807/30/4/018

Syed M, Nuessle N. What a Metal Pipe Can Teach You About Magnetism. Phys Teach [Internet]. 2019 Apr 18;57(5):330–3. Available from: https://doi.org/10.1119/1.5098925

Tipler PA, Mosca G. Physics for scientists and engineers. Macmillan; 2007.

PENENTUAN NILAI MOMEN MAGNET NEODYMIUM YANG BERGERAK DI DALAM PIPA ALUMINIUM DAN KUNINGAN DENGAN METODE ANALISIS VIDEO

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Albertus Hariwangsa Panuluh, Universitas Sanata Dharma

Yohanes Jeverson Bulu, Universitas Sanata Dharma

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