Article Sidebar

Submitted
December 30, 2021
Accepted
August 17, 2022
Published
August 29, 2022
Download
PDF Similiarity
Statistic
Read Counter : 4686 Download : 7067

Downloads

Download data is not yet available.

Main Article Content

Abstract

ABSTRAK


 


Penelitian ini bertujuan untuk menentukan percepatan gravitasi bumi lokal berbasis video tracking pada ayunan bandul sederhana. Penelitian ini menggunakan video pada eksperimen  ayunan bandul sederhana. Video rekaman diimpor ke aplikasi Tracker untuk mendapatkan periode setiap percobaan dengan panjang tali berbeda. Data panjang tali (l) diukur secara manual dan periode (T) diperoleh melalui analisis video tracking. Data penelitian ditampilkan dalam tabel dan grafik. Analisis data menggunakan persamaan regresi linear antara kuadrat periode dan panjang tali. Besar percepatan gravitasi diperoleh melalui gradient dari persamaan linear kuadrat periode dan panjang tali. Hasil penelitian menunjukkan bahwa besar percepatan gravitasi bumi lokal melalui analisis video tracking sebesar 9,735 ms-2.


 


Kata  kunci: Ayunan Bandul, Video Tracking, Percepatan Gravitasi.


 


ABSTRACT


 


This study aims to determine the local earth's gravitational acceleration based on video tracking on a simple pendulum swing. This study uses a video on a simple pendulum swing experiment. The recorded videos are imported into the Tracker app to get the period of each trial with a different rope length. Data on rope length (L) was measured manually and period (T) was obtained through video tracking analysis. Research data is displayed in tables and graphs. Data analysis used linear regression equation between the square of the period and the length of the rope. The magnitude of the acceleration due to gravity is obtained through the gradient of the linear equation of the period and the length of the string. The results showed that the magnitude of the local earth's gravitational acceleration through video tracking analysis was 9.735 ms-2.


 


Keywords: pendulum swing, video tracking, acceletiation of gravitation

Keywords

Ayunan Bandul Video Tracking Percepatan Gravitasi.

Article Details

License

Copyright (c) 2022 Yolanita MurniatY Elot, Yovita Angol, Gaudensia Alus, Richardo Barry Astro, Adrianus Nasar

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Authors who publish in this journal agree with the following terms:

  1. Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
  2. Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
  3. Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
  4. This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

• Creative Commons Attribution-ShareAlike (CC BY-SA)

Creative Commons License

Jurnal Kumparan Fisika is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

How to Cite
Elot, Y. M., Angol, Y., Alus, G., Astro, R. B., & Nasar, A. (2022). ANALISIS PERCEPATAN GRAVITASI BERBASIS VIDEO TRACKING PADA AYUNAN BANDUL. Jurnal Kumparan Fisika, 5(2), 69–76. https://doi.org/10.33369/jkf.5.2.69-76
Download Citation
Endnote/Zotero/Mendeley (RIS)
BibTeX

References

  1. C Giancoli D. Physics Principles with Application 6th Edition. Vol. 110, Pearson. 2017. 1689–1699 p.
  2. Walker J, Halliday D, Resnick R. Fundamentals of Physics Halliday & resnick 10ed. Wiley. 2014. 1448 p.
  3. Benenson W, Harris JW, Stocker H, Lutz H. Handbook of Physics. Frankfurt am Main, Germany: Verlag Harri Deutsch; 2000.
  4. Benenson W, Harris JW, Stocker H, Lutz H. Handbook of Physics. Frankfurt am Main, Germany: Verlag Harri Deutsch; 2000.
  5. Tate DR. Acceleration due to gravity at the National Bureau of Standards. Journal of Research of the National Bureau of Standards, Section C: Engineering and Instrumentation. 1968;72C(1):1.
  6. Artawan P. Analisis variatif gravitasi bumi di berbagai koordinat dengan ayunan sederhana. Jurusan Pendidikan Fisika. 2013;396–9.
  7. Brown RG. Introductory Physics I: Elementary Mechanics. Durham, NC 27708-0305: Duke University Physics Department;
  8. Astuti IAD. Pengembangan Alat Eksperimen Penentuan Percepatan Gravitasi Bumi Berdasarkan Teori Bidang Miring Berbasis Microcomputer Based Laboratoy (MbL). Faxtor Excata. 2016;9(2):114–8.
  9. Ristiawan A. Analisis Gerak Jatuh Bebas Dengan Metode Video Based Laboratory (Vbl) Menggunakan Software Tracker. Journal of Teaching and Learning Physics. 2018;3(2):26–30.
  10. Artawan P. Analisis variatif gravitasi bumi di berbagai koordinat dengan ayunan sederhana. Jurusan Pendidikan Fisika. 2013;396–9.
  11. Nurhayati, Reski Dewi Ayu A dan SAslamiyah. Jurnal Phi Penentuan Nilai Percepatan Gravitasi Bumi dengan Model Gerak Jatuh Bebas di. 2021;2(1):15–8.
  12. Agustina I, Astuti D. Pembuatan Graphic User Interface ( GUI ) untuk Analisis Ayunan Matematis Menggunakan Matlab. 2018;10(2):48–56.
  13. Suwanpayak N, Sutthiyan S, Kulsirirat K, Srisongkram P, Teeka C, Buranasiri P. A comparison of gravitational acceleration measurement methods for undergraduate experiment. J Phys Conf Ser. 2018;1144(1):0–6.
  14. Ristiawan A. Analisis Gerak Jatuh Bebas Dengan Metode Video Based Laboratory (Vbl) Menggunakan Software Tracker. Journal of Teaching and Learning Physics. 2018;3(2):26–30.
  15. Setyadin AH, Ferahenki AR, Ramayanti S, Sholihat FN, Nugraha MG, Saepuzaman D, et al. OPTIMALISASI BANDUL MATEMATIS MENGGUNAKAN TRACKER DALAM PENENTUAN PERUBAHAN PERCEPATAN GRAVITASI PERMUKAAN BUMI (g) AKIBAT GERHANA MATAHARI SEBAGIAN (GMS) 9 MARET 2016. 2016;V:SNF2016-CIP-167-SNF2016-CIP-170.
  16. Iii K, Soepomo JP. PEMANFAATAN TRACKER DALAM EKSPERIMEN AYUNAN BANDUL TEREDAM UNTUK PENENTUAN KOEFISIEN VISKOSITAS UDARA DENGAN HUKUM LANDAU-LIFSHITZ. 2013;5(1986):43–59.
  17. Chusni MM. Penentuan Besar Percepatan Gravitasi Bumi Menggunakan Ayunan Matematis Dengan Berbagai Metode Pengukuran. Scientiae Educatia. 2017;6(1):47.
  18. Khoirina M, Cari C, Sukarmin. ANALYSIS OF SPRING’S CONSTANTANT VALUE BY COMBINING THE CONCEPTS OF HOOKE’S LAW AND ARCHIMEDES’ LAW. Jurnal Ilmu Pendidikan Fisika. 2018;3(2):55–8.
  19. Kittiravechote A, Sujarittham T. Measuring the acceleration of gravity using a smartphone, A4-papers, and a pencil. International Journal of Advanced Science and Technology. 2020;29(7 Special Issue):884–9.
  20. Dachi R, Setiawan I. Measurement of gravitational acceleration with the leak tank method. Journal of Physics: Theories and Applications. 2018;2(1):19.
  21. Sani MH, Tijjani Baraya J, Mu’awuya SM, Abdulkarim A, Student PG. Comparison of Theoretical and Measured Acceleration Due to Gravity. International Journal of Innovative Research in Science, Engineering and Technology (An ISO. 2007;3297(2):3787–97.