This book is focused on the qualitative theory of general quantum calculus, the modern name for the investigation of calculus without limits. It centers on designing, analysing and applying computational techniques for general quantum differential equations.
The quantum calculus or q-calculus began with FH Jackson in the early twentieth century, but this kind of calculus had already been worked out by Euler and Jacobi. Recently it arose interest due to high demand of mathematics that models quantum computing and in the connection between mathematics and physics.
Quantum Calculus has many applications in different mathematical areas such as number theory, combinatorics, orthogonal polynomials, basic hyper-geometric functions and other sciences quantum theory, mechanics and the theory of relativity.
The authors summarize the most recent contributions in this area. The book is intended for senior undergraduate students and beginning graduate students of engineering and science courses. There are twelve chapters in this book. The chapters in the book are pedagogically organized. Each chapter concludes with a section with practical problems.
This book is focused on the qualitative theory of general quantum calculus, the modern name for the investigation of calculus without limits. It centers on designing, analysing and applying computational techniques for general quantum differential equations.
1. General Quantum Differentiation.
2. General Quantum Integration.
3.
-Elementary Functions.
4. General Quantum Polynomial Interpolation.
5.
Numerical -Integration.
6. Piecewise Polynomial Approximation.
7. The Euler
Method.
8. The Order-Two Taylor Series Method-TS(2).
9. The Order-p Taylor
Series Method-TS(p).
10. Linear Multistep Methods-LLMs.
11. Runge-Kutta
Methos-RMMs.
12. The Adomain Polynomoials Method.
Svetlin G. Georgiev is a mathematician who has worked in various areas of mathematics. He currently focuses on harmonic analysis, functional analysis, partial differential equations, ordinary differential equations, Clifford and quaternion analysis, integral equations and dynamic calculus on time scales.
Khaled Zennir earned his PhD in mathematics in 2013 from Sidi Bel Abbès University, Algeria. In 2015, he received his highest diploma in Habilitation in mathematics from Constantine University, Algeria. He is currently an assistant professor at Qassim University in the Kingdom of Saudi Arabia. His research interests lie in the subjects of nonlinear hyperbolic partial differential equations: global existence, blowup and longtime behavior.
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