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The concept of integral transforms has been found to be a useful mathematical tool for solving a variety of problems not only in mathematics, but also in various other branches of science, engineering, and technology. This book presents a mathematical analysis of integral transforms and their applications.
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The concept of integral transforms has been found to be a useful mathematical tool for solving a variety of problems not only in mathematics, but also in various other branches of science, engineering, and technology. This book presents a mathematical analysis of integral transforms and their applications.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 454
- Erscheinungstermin: 8. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 653g
- ISBN-13: 9781032418209
- ISBN-10: 1032418206
- Artikelnr.: 71672038
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
- Verlag: CRC Press
- Seitenzahl: 454
- Erscheinungstermin: 8. Oktober 2024
- Englisch
- Abmessung: 234mm x 156mm x 24mm
- Gewicht: 653g
- ISBN-13: 9781032418209
- ISBN-10: 1032418206
- Artikelnr.: 71672038
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
Abdon Atangana received his Ph.D. in 2013 from the University of the Free State, Bloemfontein, South Africa, where, since 2017 he has been a full professor within the faculty of natural and agricultural science He was included in the 2019 (Maths), 2020 (Cross-field) and the 2021 (Maths) Clarivate Web of Science lists of the World's top 1% scientists, and he was awarded The World Academy of Sciences (TWAS) inaugural Mohammed A. Hamdan award for contributions to science in developing countries. In 2018 Atangana was elected as a member of the African Academy of Sciences and in 2021 a member of The World Academy of Sciences. He also ranked number one in the world in mathematics, number 186 in the world in all the fields, and number one in Africa in all the fields, according to the Stanford list of 2% single-year table. He was one of the first recipients of the Obada Award 2018. He published a paper that was ranked by Clarivate in 2017 as the most cited mathematics paper in the world. To date, the studies of Atangana are published in more than 401 papers, which have appeared in the most prestigious international peer-reviewed journals and in six books published by top international publishers. Abdon Atangana has supervised the works of 20 masters, 15 Ph.D. students, and 6 post-doctoral fellows and serves as the editor in several internationally accredited journals. He has also organized more than 25 special issues in top tiers journals and has been a plenary and invited speaker in more than 25 international conferences. Ali Akgül is a full professor at Siirt University, Art and Science Department of Mathematics. He is head of the Mathematics Department and has made a big contribution to the fractional calculus and numerical methods. He has published more than 250 research papers in various journals and has participated as an invited speaker at many international conferences. Dr. Akgül has received many scientific awards and has been on the global list of Stanford University's best top 2% Scientists in various disciplines for 2020 and 2021. He received the Obada-Prize Young Distinguished Researchers in 2022.
1. Sumudu and Laplace transforms. 2. Transfer functions and diagrams. 3.
Analysis of first order circuit model 1. 4. Analysis of first order circuit
model 2. 5. Analysis of noninverting integrators model 1. 6. Analysis of
Noninverting integrators model 2. 7. Analysis of lag network model. 8.
Analysis of lead network model. 9. Analysis of first order circuit model 3.
10. Analysis of first order circuit model 4. 11. Analysis of first order
circuit model 5. 12. Analysis of a series RLC Circuit model. 13. Analysis
of a parallel RLC circuit model. 14. Analysis of higher order circuit model
1. 15. Analysis of higher order circuit model 2. 16. Analysis of higher
order circuit model 3. 17. Nonlinear Model 1. 18. Chua circuit model. 19.
Applications of the circuit problems. 20. Existence and uniqueness of the
solution. 21. Non-Linear stochastic RLC systems. 22. Numerical simulations
of some circuit problems. 23. Applications of general integral transform.
Conclusion. References.
Analysis of first order circuit model 1. 4. Analysis of first order circuit
model 2. 5. Analysis of noninverting integrators model 1. 6. Analysis of
Noninverting integrators model 2. 7. Analysis of lag network model. 8.
Analysis of lead network model. 9. Analysis of first order circuit model 3.
10. Analysis of first order circuit model 4. 11. Analysis of first order
circuit model 5. 12. Analysis of a series RLC Circuit model. 13. Analysis
of a parallel RLC circuit model. 14. Analysis of higher order circuit model
1. 15. Analysis of higher order circuit model 2. 16. Analysis of higher
order circuit model 3. 17. Nonlinear Model 1. 18. Chua circuit model. 19.
Applications of the circuit problems. 20. Existence and uniqueness of the
solution. 21. Non-Linear stochastic RLC systems. 22. Numerical simulations
of some circuit problems. 23. Applications of general integral transform.
Conclusion. References.
1. Sumudu and Laplace transforms. 2. Transfer functions and diagrams. 3.
Analysis of first order circuit model 1. 4. Analysis of first order circuit
model 2. 5. Analysis of noninverting integrators model 1. 6. Analysis of
Noninverting integrators model 2. 7. Analysis of lag network model. 8.
Analysis of lead network model. 9. Analysis of first order circuit model 3.
10. Analysis of first order circuit model 4. 11. Analysis of first order
circuit model 5. 12. Analysis of a series RLC Circuit model. 13. Analysis
of a parallel RLC circuit model. 14. Analysis of higher order circuit model
1. 15. Analysis of higher order circuit model 2. 16. Analysis of higher
order circuit model 3. 17. Nonlinear Model 1. 18. Chua circuit model. 19.
Applications of the circuit problems. 20. Existence and uniqueness of the
solution. 21. Non-Linear stochastic RLC systems. 22. Numerical simulations
of some circuit problems. 23. Applications of general integral transform.
Conclusion. References.
Analysis of first order circuit model 1. 4. Analysis of first order circuit
model 2. 5. Analysis of noninverting integrators model 1. 6. Analysis of
Noninverting integrators model 2. 7. Analysis of lag network model. 8.
Analysis of lead network model. 9. Analysis of first order circuit model 3.
10. Analysis of first order circuit model 4. 11. Analysis of first order
circuit model 5. 12. Analysis of a series RLC Circuit model. 13. Analysis
of a parallel RLC circuit model. 14. Analysis of higher order circuit model
1. 15. Analysis of higher order circuit model 2. 16. Analysis of higher
order circuit model 3. 17. Nonlinear Model 1. 18. Chua circuit model. 19.
Applications of the circuit problems. 20. Existence and uniqueness of the
solution. 21. Non-Linear stochastic RLC systems. 22. Numerical simulations
of some circuit problems. 23. Applications of general integral transform.
Conclusion. References.