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- Author: Xiao Jun Yang
- Publisher: Academic Press
- ISBN-10: 0128172088
- ISBN-13: 9780128172087
- Format: 15.2 x 22.9 x 2.3 cm, softcover
- Language: English
- SAVE -10% with code: EXTRA
General Fractional Derivatives with Applications in Viscoelasticity (e-book) (used book) | bookbook.eu
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General Fractional Derivatives with Applications in Viscoelasticity introduces the newly established fractional-order calculus operators involving singular and non-singular kernels with applications to fractional-order viscoelastic models from the calculus operator viewpoint. Fractional calculus and its applications have gained considerable popularity and importance because of their applicability to many seemingly diverse and widespread fields in science and engineering. Many operations in physics and engineering can be defined accurately by using fractional derivatives to model complex phenomena. Viscoelasticity is chief among them, as the general fractional calculus approach to viscoelasticity has evolved as an empirical method of describing the properties of viscoelastic materials. General Fractional Derivatives with Applications in Viscoelasticity makes a concise presentation of general fractional calculus.
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- Author: Xiao Jun Yang
- Publisher: Academic Press
- ISBN-10: 0128172088
- ISBN-13: 9780128172087
- Format: 15.2 x 22.9 x 2.3 cm, softcover
- Language: English English
General Fractional Derivatives with Applications in Viscoelasticity introduces the newly established fractional-order calculus operators involving singular and non-singular kernels with applications to fractional-order viscoelastic models from the calculus operator viewpoint. Fractional calculus and its applications have gained considerable popularity and importance because of their applicability to many seemingly diverse and widespread fields in science and engineering. Many operations in physics and engineering can be defined accurately by using fractional derivatives to model complex phenomena. Viscoelasticity is chief among them, as the general fractional calculus approach to viscoelasticity has evolved as an empirical method of describing the properties of viscoelastic materials. General Fractional Derivatives with Applications in Viscoelasticity makes a concise presentation of general fractional calculus.
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