Studi Metoda Penentuan Luasan Di Bawah Kurva Dari Parameter Listrik vs Waktu Untuk Analisa Kelistrikan

Authors

  • Hedy Aditya Baskhara Universitas Pamulang
  • Ojak Abdul Rozak Universitas Pamulang

DOI:

https://doi.org/10.32493/jsmu.v5i2.29402

Keywords:

penimbangan, mekanis, grafik, polinomial, simpson.

Abstract

Jika kurva yang diperoleh memberikan bentuk yang tak tentu, oleh sebab adanya perubahan nilai pengukuran yang berubah tiap waktu, maka diperlukan metoda untuk dapat menentukan luasan di bawah kurva dengan cara-cara pendekatan. Metoda-metoda yang digunakan untuk menentukan luasan di bawah kurva yaitu dengan metoda penimbangan dari luasan kertas grafik, metoda pengukuran mekanis, metoda analisa grafik, metoda polinomial orde pertama, dan metoda analisa numerik. Perhitungan dengan aturan-aturan ini, dapat dibuat dalam bentuk tabel, atau algoritmanya diuraikan ke dalam pemrograman komputer. Metoda yang mudah dalam penerapan dan cukup akurat adalah aturan Simpson.

Author Biography

Ojak Abdul Rozak, Universitas Pamulang

Departement Teknik Elektro

Dosen

References

C.A. Thompson. (1992). A study of numerical integration techniques for use in the companion circuit method of transient circuit analysis, Purdue University School of Electrical Engineering, TR-EE 92-17.

J.P. Holman. (2012). Experimental Methods for Engineers 8ed. McGraw-Hill Companies Inc. 2. pb. 264-270. www.mhhe.com.

R.A. Nakka. (2000). Determining Total Impulse and Specific Impulse from Static Test Data., Richard Nakka's Experimental Rocketry WebSite, pb. http://www.nakkarocketry.net/impcalc.html.

R.L. Burden, J.D. Faires. (2011). Numerical Analysis 9ed. Brooks/Cole, Cengage Learning, Boston, MA02210, USA, pb. 193-253. www.cengage.com.

W.Y. Yang et al. (2005). Applied Numerical Methods using Matlab. John Wiley & Sons, Inc. Hoboken, New Jersey. pp. 222-241.

Jaan Kiusalaas. (2010). Numerical Methods in Engineering with Matlab 2ed. Cambridge University Press, New York. USA. pp. 198-247. www.cambridge.org.

S.C. Chapra, R.P. Canale. (2010). Numerical Methods for Engineers 6ed. McGraw-Hill Companies Inc, pb.601652. www.mhhe.com.

S.C. Chapra, R.P. Canale. (2015). Numerical Methods for Engineers 7ed. McGraw-Hill Education, pb.587654. www.mhhe.com.

S.C. Chapra. (...). Applied Numerical Methods with Matlab for engineers and scientist 2ed. Ebook. pb. 392-422.

J.D. Hoffman. Numerical Methods for Engineers & Scientists 2ed. Marcel Dekker Inc. USA. 2001. pb. 285316. http://www.dekker.com.

Erwin Kreyszig. (2011). Advanced Engineering Mathematics 10ed. John Wiley & Sons, Inc. Printed in USA. pb. 827-838. http://www.wiley.com/college/kreyszig.

John Bird. (2007). Engineering Mathematics 5ed. Elsevier Ltd, Netherlands. pb. 469-486. http://www.elsevier.com.

John Bird. (2014). Basic Engineering Mathematics 6ed. Routledge Taylor & Francis Group. Newnes. New York. pb. 290-299.

W.N. Rose. (1922). Mathematics for Engineers part-1 3ed. Chapman & Hall Ltd, London, pb. 300-318. http://www.archive.org/details/mathematicsforen01roseuoft.

Gilbert Strang. (…). Calculus. Massachusetts Institute of Technology. Wellesley-Cambridge Press. Box 82279 Wellesley MA 02181. pb. 220-226.

Hadi Saadat. (1999). Power System Analysis. McGraw-Hill Companies Inc, USA. pb. 460-520.

John Bird. (2007). Electrical Circuit Theory & Technology 3ed. Elsevier Ltd. Linacre House, Jordan Hill, Oxford OX2 8DP, UK. pb 480-485.

S.E. Pav. (2005). Numerical methods course notes v0.11, UCSD Math 174, Fall 2004, University of California, San Diego. pc. 97-112.

Downloads

Published

2023-01-02

Issue

Vol. 5 No. 2 (2023)

Section

Articles

License

This content licensing is in accordance with a CC license: https://creativecommons.org/licenses/by-nc-sa/4.0/  CC-BY-NC-SA.