PENENTUAN BESAR PERCEPATAN GRAVITASI BUMI MENGGUNAKAN AYUNAN MATEMATIS DENGAN BERBAGAI METODE PENGUKURAN

Authors

  • Muhammad Minan Chusni UIN Sunan Gunung Djati Bandung

DOI:

https://doi.org/10.24235/sc.educatia.v6i1.1346

Keywords:

earth's gravity, mathematical swing, measurement methods, gravitasi bumi, ayunan matematis, metode pengukuran

Abstract

Research has been done on the determination of the acceleration of gravity of the earth using mathematical swings by various methods of measurement. Data retrieval is done by removing the pendulum attached to a string that is hanging and then time. Data processing is done by single measurement method, repeatable measurement, measurement with weighted mean and measurement with linear regression without weight. From the experimental data, the results of the Earth's gravity measured using a single measurement method (9.689 ± 0.009) m/s2, repeated measurements of (9,832 ± 0.001) m/s2, repeated measurements with weighted average of (9,835 ± 0.004) m/s2 and measurement by linear regression without weight as big as (9,71 ± 0.43) m/s2.

Telah dilakukan penelitian tentang penentuan besar percepatan gravitasi bumi menggunakan ayunan matematis dengan berbagai metode pengukuran.Pengambilan data dilakukan dengan cara melepaskan bandul yang diikatkan pada tali yang tergantung kemudian dicatat waktunya. Pengolahan data dilakukan dengan metode pekukuran tunggal, pengukuran berulang, pengukuran dengan rata-rata berbobot dan pengukuran dengan regresi linier tanpa bobot. Dari data eksperimen diperoleh hasil besar gravitasi bumi menggunakan metode pengukuran tunggal sebesar (9.689 ± 0.009) m/s2, pengukuran berulang sebesar (9.832 ± 0.001) m/s2, pengukuran berulang dengan rata-rata berbobot sebesar (9.835 ± 0.004) m/s2 dan pengukuran dengan regresi linier tanpa bobot sebesar (9,71 ±  0.43) m/s2. 

Author Biography

  • Muhammad Minan Chusni, UIN Sunan Gunung Djati Bandung
    Program Studi Pendidikan Fisika

References

Bevington, P. & Robinson, D. K., (2003). Data Reduction And Error Analysis For The Physical Sciences. New York: McGraw-Hill.

Prasetio, L., Hien, T. K. & Setiawan, S., (1992). Mengerti Fisika. Pertama penyunt. Yogyakarta: Andi Offset.

Ranreng, A., (1984). Asas-asas Ilmu Alam Universitas Jilid. I. Ujung Pandang: Badan Kerjasama Perguruan Tinggi Negeri. Indonesia Bagian Timur.

Shofwan, M., (2003). Peranan Persamaan Diferensial Linier Orde Kedua pada Ayunan Bandul, Malang: Universitas Negeri Malang.

Tipler, P. A., (1998). Fisika : untuk sains dan teknik. Jakarta: Erlangga.

Young, H. D. & Freedman, R. A., (2002). Fisika Universitas. Jakarta: Erlangga.

Downloads

Published

2017-06-21

Issue

Vol. 6 No. 1 (2017): June (2017)

Section

Articles

License

Copyright (c) 2017 Scientiae Educatia: Jurnal Pendidikan Sains

Creative Commons License

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

LETTER OF COPYRIGHT AGREEMENT

I am the author of an article on Scientiae Educatia: Jurnal Pendidikan Sains in collaboration with the Perkumpulan Pendidik IPA Indonesia (PPII), the undersigned:

State that:

  1. My paper is the work itself, authentic, has never been published in journals and other publications;
  2. My paper is a work on original ideas / research, not the result of plagiarism;
  3. My paper was not published from the help of others, except on the recommendation of the editorial and reviewer board that was selected by this journal;
  4. My paper, there are no writings or opinions that I have written other than including the reference source in the bibliography;
  5. I give all my copyright of this paper to this journal include the right for managing and publication;
  6. I make this assignment surely. If there are distortion and untruth in this assignment, later, I will take responsibility as the current law.