| 000 | 01409nam a2200193Ia 4500 | ||
|---|---|---|---|
| 008 | 210916s9999 xx 000 0 und d | ||
| 020 | _a9780367849832 | ||
| 082 |
_a514.742 _bSAH |
||
| 100 |
_aSaha Ray, Santanu _97840 |
||
| 245 | 0 | _aFractional calculus with applications for nuclear reactor dynamics | |
| 260 |
_aBoca Raton _bCRC Press _c2016 |
||
| 300 | _a201p. | ||
| 500 | _ahttps://www.routledge.com/Fractional-Calculus-with-Applications-for-Nuclear-Reactor-Dynamics/Ray/p/book/9781138893238 | ||
| 520 | _aWhile deemed nonessential in the past, fractional calculus is now gaining momentum in the science and engineering community. Various disciplines have discovered that realistic models of physical phenomenon can be achieved with fractional calculus and are using them in numerous ways. Since fractional calculus represents a reactor more closely than classical integer order calculus, Fractional Calculus with Applications for Nuclear Reactor Dynamics focuses on the application of fractional calculus to describe the physical behavior of nuclear reactors. It applies fractional calculus to incorporate the mathematical methods used to analyze the diffusion theory model of neutron transport and explains the role of neutron transport in reactor theory. | ||
| 650 |
_aFractional calculus _97841 |
||
| 650 |
_aNuclear reactors--Mathematical models _97842 |
||
| 650 |
_aCalculus _96320 |
||
| 942 | _cBK | ||
| 999 |
_c7348 _d7348 |
||