International Research Journal of Innovations in Engineering and Technology - IRJIET International Open Access, Monthly, Peer Reviewed, Reputed Journal ISSN (online): 2581-3048

Impact Factor (2025): 6.9

DOI Prefix: 10.47001/IRJIET

Response of Electrical Networks with Delta Potential via Mohand Transform

Dinesh VermaAssociate Professor of Mathematics, Dept. of Applied Sciences, Yogananda College of Engg. and Technology (YCET), JammuYuvraj SinghAssistant Professor, Department of Electrical Engineering, Yogananda College of Engineering and Technology (YCET), JammuRohit GuptaLecturer of Physics, Department of Applied Sciences, Yogananda College of Engineering and Technology (YCET), Jammu

Vol 4 No 2 (2020): Volume 4, Issue 2, February 2020 | Pages: 41-43

International Research Journal of Innovations in Engineering and Technology

OPEN ACCESS | Research Article | Published Date: 18-02-2020

doi Logo

pdf iconFull Text PDF
Abstract

The electrical network circuits with delta potential are generally solved by adopting Laplace transform method. The paper inquires the electrical network circuits with delta potential by Mohand transform technique. The purpose of paper is to prove the applicability of Mohand transform to analyze electrical network circuits with delta potential.

Keywords

Mohand Transform, Electrical Network Circuit, Delta Potential


Citation of this Article

Dinesh Verma, Yuvraj Singh, Rohit Gupta, “Response of Electrical Networks with Delta Potential via Mohand Transform” Published in International Research Journal of Innovations in Engineering and Technology - IRJIET, Volume 4, Issue 2, pp 41-43, February 2020. 

Licence Copyright (c) 2026 International Research Journal of Innovations in Engineering and Technology creative common licence This work is licensed under Creative common Attribution Non Commercial 4.0 Internation Licence
References
  1. Mohand M. Abdelrahim Mahgoub, The New Integral Transform ''Mohand Transform, Advances in Theoretical and Applied Mathematics ISSN 0973-4554 Volume 12, Number 2 (2017), pp. 113-120.
  2. Dinesh Verma, Aftab Alam, Analysis of Simultaneous Differential Equations by Elzaki Transform Approach, Science, Technology and Development Volume IX, Issue I, January 2020.
  3. Rohit Gupta, Rahul Gupta, Matrix method for deriving the response of a series Ł- Ϲ- Ɍ network connected to an excitation voltage source of constant potential, Pramana Research Journal, Volume 8, Issue 10, 2018.
  4. Rohit Gupta, Rahul Gupta, Sonica Rajput, Convolution Method for the Complete Response of a Series Ł-Ɍ Network Connected to an Excitation Source of Sinusoidal Potential‖, International Journal of Research in Electronics And Computer Engineering, IJRECE Vol. 7, issue 1 (January- March 2019), pp. 658-661.
  5. Electrical Engineering Fundamentals by Dr. Vincent Del Toro. 2nd edition.
  6. Rohit Gupta, Loveneesh Talwar, Rahul Gupta, Analysis of network circuit with steady voltage source, and with steady current source via convolution method, International Journal Of Scientific & Technology Research Volume 8, Issue 11, November 2019.
  7. Rahul Gupta, Rohit Gupta, Dinesh Verma, Application of Convolution Method to the Impulsive Response of A Lightly Damped Harmonic Oscillator, International Journal of Scientific Research in Physics and Applied Sciences, Vol.7, Issue.3, pp.173-175, June (2019).
  8. Dr. Dinesh Verma, Applications of Laplace Transformation for solving Various Differential Equations with Variable Coefficients, International Journal for Innovative Research in Science & Technology, Volume 4, Issue 11, April 2018.
  9. Dinesh Verma, Rohit Gupta, Amit Pal Singh, Analysis of integral Equations of convolution type via Residue Theorem Approach, The International journal of analytical and experimental modal analysis, Volume XII, Issue I, January 2020.
  10. Network Analysis by M. E. Van Valkenburg, 2014, Edition 3rd.
  11. H.K. Dass, Introduction to Engineering Mathematics.

Copyright @ 2026 IRJIET. All Right Reserved.

Licensed underCreative Commons Attribution 4.0 International License.