Conformable Dynamic Equations on Time Scales


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About The Book

<p>The concept of derivatives of non-integer order known as fractional derivatives first appeared in the letter between L’Hopital and Leibniz in which the question of a half-order derivative was posed. Since then many formulations of fractional derivatives have appeared. Recently a new definition of fractional derivative called the fractional conformable derivative has been introduced. This new fractional derivative is compatible with the classical derivative and it has attracted attention in areas as diverse as mechanics electronics and anomalous diffusion. </p><p><b><i>Conformable Dynamic Equations on Time Scales</i></b> is devoted to the qualitative theory of conformable dynamic equations on time scales. This book summarizes the most recent contributions in this area and vastly expands on them to conceive of a comprehensive theory developed exclusively for this book. Except for a few sections in Chapter 1 the results here are presented for the first time. As a result the book is intended for researchers who work on dynamic calculus on time scales and its applications. </p><p>Features </p><ul> <p> </p> <li>Can be used as a textbook at the graduate level as well as a reference book for several disciplines </li> <p> </p> <li>Suitable for an audience of specialists such as mathematicians physicists engineers and biologists </li> <p> </p> <li>Contains a new definition of fractional derivative</li> </ul><p>About the Authors</p><p>Douglas R. Anderson is professor and chair of the mathematics department at Concordia College Moorhead. His research areas of interest include dynamic equations on time scales and Ulam-type stability of difference and dynamic equations. He is also active in investigating the existence of solutions for boundary value problems.</p><p>Svetlin G. Georgiev is currently professor at Sorbonne University Paris France and works in various areas of mathematics. He currently focuses on harmonic analysis partial differential equations ordinary differential equations Clifford and quaternion analysis dynamic calculus on time scales and integral equations.</p>
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