Author
Rohit Gupta, Rahul Gupta, Ajay Kumar
Keywords
Mechanical and Electrical Oscillators; Impulsive Responses; Rohit Transform.
Abstract
The analysis of impulsive responses of mechanical and electrical oscillators is a well-known problem in applied sciences and engineering. In this paper, the impulsive responses of mechanical and electrical oscillators are obtained by the new integral transform ‘Rohit transform’. This paper brings up the Rohit transform as a new technological approach for obtaining the impulsive responses of mechanical and electrical oscillators. The results obtained by applying the Rohit transform are the same as obtained with other integral transforms or approaches.
References
[1] 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).
[2] Fundamentals of Physics by Dr. Robert Resnick and David Halliday, Publisher: John Wiley and sons, 10th edition.
[3] Mathematical physics by E. Butkov, Addison-Wesley Pub Co, 1968, Chapter 7.
[4] Murray R. Spiegel, Theory and Problems of Laplace Transforms, Schaum’s outline series, McGraw – Hill.
[5] Rohit Gupta, Rahul Gupta, Sonica Rajput, Analysis of Damped Harmonic Oscillator by Matrix Method, International Journal of Research and Analytical Reviews (IJRAR), Volume 5, Issue 4, October 2018, pp. 479-484.
[6] Dinesh Verma, Yuvraj Singh, Rohit Gupta, Response of Electrical Networks with Delta Potential via Mohand Transform, International Research Journal of Innovations Engineering and Technology, volume 2, issue 2, February 2020, pp. 41-43.
[7] Rohit Gupta, Loveneesh Talwar, Rahul Gupta, Analysis of Ɍ-Ł- Ϲ 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, pp. 803-807.
[8] Dr. J. S. Chitode and Dr. R.M. Jalnekar, Network Analysis and Synthesis, Publisher: Technical Publications, 2007.
[9] 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, pp. 120-128.
[10] 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, Vol. 7, issue 1, January- March 2019, pp. 658-661.
[11] Rohit Gupta, Rahul Gupta, Sonica Rajput, Response of a parallel Ɫ- Ϲ- ℛ network connected to an excitation source providing a constant current by matrix method, International Journal for Research in Engineering Application & Management, Vol. 4, Issue 7, Oct. 2018, pp. 212-217.
[12] Rohit Gupta and Loveneesh Talwar, “Elzaki Transform Means To Design A Protective RC Snubber Circuit,” International Journal of Scientific and Technical Advancements, Volume 6, Issue 3, 2020, pp. 45-48.
[13] Rohit Gupta, “On Novel Integral Transform: Rohit Transform and Its Application to Boundary Value Problems”, ASIO Journal of Chemistry, Physics, Mathematics & Applied Sciences, Volume 4, Issue 1, 2020, 08-13.
[14] Rohit Gupta, Rahul Gupta, Dinesh Verma, Solving Schrodinger equation for a quantum mechanical particle by a new integral transform: Rohit Transform, “ASIO Journal of Chemistry, Physics, Mathematics & Applied Sciences , 4(1), 2020, pp. 32-36.
[15] Rohit Gupta, Rahul Gupta, Analysis of RLC circuits with exponential excitation sources by a new integral transform: Rohit Transform, ASIO Journal of Engineering & Technological Perspective Research, 5(1), 2020, pp.22-24.
[16] Anamika, Rohit Gupta, Analysis Of Basic Series Inverter Via The Application Of Rohit Transform, International Journal of Advance Research and Innovative Ideas in Education, Vol-6, Issue-6, 2020, pp. 868-873.
[17] Loveneesh Talwar, Rohit Gupta, Analysis of Electric Network Circuits with Sinusoidal Potential Sources via Rohit Transform, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 9(11), 2020, pp. 3020-3023.
[18] Neeraj Pandita, Rohit Gupta, Analysis Of Uniform Infinite Fin via Means Of Rohit Transform, , International Journal of Advance Research and Innovative Ideas in Education, 6(6), 2020, pp. 1033-1036.
[19] Neeraj Pandita, Rohit Gupta, Analysis Of Uniform Infinite Fin via Means Of Rohit Transform, , International Journal of Advance Research and Innovative Ideas in Education, 6(6), 2020, pp. 1033-1036.
[20] Gupta R., Gupta R., Verma D. 2022. Response of RLC network circuit with steady source via Rohit transform. International Journal of Engineering, Science and Technology, Vol. 14, No. 1, pp. 21-27. doi: 10.4314/ijest.v14i1.3
[21] Gupta R., Singh I., 2022. Analysis of one-way streamline flow between parallel plates via Rohit integral transform, International Journal of Trendy Research in Engineering and Technology, Vol. 6, No. 5, pp. 29-32.
[22] Rohit Gupta, Rahul Gupta, Anamika, Response of a Permanent Magnet Moving Coil Instrument via the Application of Rohit Transform, Engineering and Scientific International Journal (ESIJ), 8(2), 2021 ,pp. 42-46. doi: 10.30726/esij/v8.i2.2021.82010
[23] Neeraj Pandita and Rohit Gupta, Heat Conducted Through Fins Of Varying Cross-Sect ions Via Rohit Transform, EPRA Journal Of Research And Development, 5(12), 2020, pp. 222-226.
[24] Rohit Gupta, Inderdeep Singh, Ankush Sharma, Response of an Undamped Forced Oscillator via Rohit Transform, International Journal of Emerging Trends in Engineering Research, Volume 10. No.8, 2022, pp. 396-400. doi: 10.30534/ijeter/2022/031082022.
[25] Rohit Gupta Rahul Gupta, Analysis Of Damped Mechanical And Electrical Oscillators By Rohit transform, ASIO Journal Of Chemistry, Physics, Mathematics & Applied Sciences, 4(1), 2020, pp. 45-47.
[26] Rahul Gupta and Rohit Gupta, Impulsive Responses of Damped Mechanical and Electrical Oscillators, International Journal of Scientific and Technical Advancements, 6(3), 2020, pp. 41-44.
[27] Rohit Gupta, Rahul Gupta, Sonica Rajput, Analysis of Damped Harmonic Oscillator by Matrix Method, International Journal of Research and Analytical Reviews, 5(4), 2018, pp. 479-484.
[2] Fundamentals of Physics by Dr. Robert Resnick and David Halliday, Publisher: John Wiley and sons, 10th edition.
[3] Mathematical physics by E. Butkov, Addison-Wesley Pub Co, 1968, Chapter 7.
[4] Murray R. Spiegel, Theory and Problems of Laplace Transforms, Schaum’s outline series, McGraw – Hill.
[5] Rohit Gupta, Rahul Gupta, Sonica Rajput, Analysis of Damped Harmonic Oscillator by Matrix Method, International Journal of Research and Analytical Reviews (IJRAR), Volume 5, Issue 4, October 2018, pp. 479-484.
[6] Dinesh Verma, Yuvraj Singh, Rohit Gupta, Response of Electrical Networks with Delta Potential via Mohand Transform, International Research Journal of Innovations Engineering and Technology, volume 2, issue 2, February 2020, pp. 41-43.
[7] Rohit Gupta, Loveneesh Talwar, Rahul Gupta, Analysis of Ɍ-Ł- Ϲ 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, pp. 803-807.
[8] Dr. J. S. Chitode and Dr. R.M. Jalnekar, Network Analysis and Synthesis, Publisher: Technical Publications, 2007.
[9] 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, pp. 120-128.
[10] 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, Vol. 7, issue 1, January- March 2019, pp. 658-661.
[11] Rohit Gupta, Rahul Gupta, Sonica Rajput, Response of a parallel Ɫ- Ϲ- ℛ network connected to an excitation source providing a constant current by matrix method, International Journal for Research in Engineering Application & Management, Vol. 4, Issue 7, Oct. 2018, pp. 212-217.
[12] Rohit Gupta and Loveneesh Talwar, “Elzaki Transform Means To Design A Protective RC Snubber Circuit,” International Journal of Scientific and Technical Advancements, Volume 6, Issue 3, 2020, pp. 45-48.
[13] Rohit Gupta, “On Novel Integral Transform: Rohit Transform and Its Application to Boundary Value Problems”, ASIO Journal of Chemistry, Physics, Mathematics & Applied Sciences, Volume 4, Issue 1, 2020, 08-13.
[14] Rohit Gupta, Rahul Gupta, Dinesh Verma, Solving Schrodinger equation for a quantum mechanical particle by a new integral transform: Rohit Transform, “ASIO Journal of Chemistry, Physics, Mathematics & Applied Sciences , 4(1), 2020, pp. 32-36.
[15] Rohit Gupta, Rahul Gupta, Analysis of RLC circuits with exponential excitation sources by a new integral transform: Rohit Transform, ASIO Journal of Engineering & Technological Perspective Research, 5(1), 2020, pp.22-24.
[16] Anamika, Rohit Gupta, Analysis Of Basic Series Inverter Via The Application Of Rohit Transform, International Journal of Advance Research and Innovative Ideas in Education, Vol-6, Issue-6, 2020, pp. 868-873.
[17] Loveneesh Talwar, Rohit Gupta, Analysis of Electric Network Circuits with Sinusoidal Potential Sources via Rohit Transform, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 9(11), 2020, pp. 3020-3023.
[18] Neeraj Pandita, Rohit Gupta, Analysis Of Uniform Infinite Fin via Means Of Rohit Transform, , International Journal of Advance Research and Innovative Ideas in Education, 6(6), 2020, pp. 1033-1036.
[19] Neeraj Pandita, Rohit Gupta, Analysis Of Uniform Infinite Fin via Means Of Rohit Transform, , International Journal of Advance Research and Innovative Ideas in Education, 6(6), 2020, pp. 1033-1036.
[20] Gupta R., Gupta R., Verma D. 2022. Response of RLC network circuit with steady source via Rohit transform. International Journal of Engineering, Science and Technology, Vol. 14, No. 1, pp. 21-27. doi: 10.4314/ijest.v14i1.3
[21] Gupta R., Singh I., 2022. Analysis of one-way streamline flow between parallel plates via Rohit integral transform, International Journal of Trendy Research in Engineering and Technology, Vol. 6, No. 5, pp. 29-32.
[22] Rohit Gupta, Rahul Gupta, Anamika, Response of a Permanent Magnet Moving Coil Instrument via the Application of Rohit Transform, Engineering and Scientific International Journal (ESIJ), 8(2), 2021 ,pp. 42-46. doi: 10.30726/esij/v8.i2.2021.82010
[23] Neeraj Pandita and Rohit Gupta, Heat Conducted Through Fins Of Varying Cross-Sect ions Via Rohit Transform, EPRA Journal Of Research And Development, 5(12), 2020, pp. 222-226.
[24] Rohit Gupta, Inderdeep Singh, Ankush Sharma, Response of an Undamped Forced Oscillator via Rohit Transform, International Journal of Emerging Trends in Engineering Research, Volume 10. No.8, 2022, pp. 396-400. doi: 10.30534/ijeter/2022/031082022.
[25] Rohit Gupta Rahul Gupta, Analysis Of Damped Mechanical And Electrical Oscillators By Rohit transform, ASIO Journal Of Chemistry, Physics, Mathematics & Applied Sciences, 4(1), 2020, pp. 45-47.
[26] Rahul Gupta and Rohit Gupta, Impulsive Responses of Damped Mechanical and Electrical Oscillators, International Journal of Scientific and Technical Advancements, 6(3), 2020, pp. 41-44.
[27] Rohit Gupta, Rahul Gupta, Sonica Rajput, Analysis of Damped Harmonic Oscillator by Matrix Method, International Journal of Research and Analytical Reviews, 5(4), 2018, pp. 479-484.
Received : 07 April 2022
Accepted : 14 September 2022
Published : 25 September 2022
DOI: 10.30726/esij/v9.i3.2022.93001