Advanced Engineering Mathematics with MATLABCRC Press, 26 oct. 2010 - 1105 pages Taking a practical approach to the subject, Advanced Engineering Mathematics with MATLAB, Third Edition continues to integrate technology into the conventional topics of engineering mathematics. The author employs MATLAB to reinforce concepts and solve problems that require heavy computation. MATLAB scripts are available for download at www.crcpres |
Table des matières
Complex Variables | 1 |
FirstOrder Ordinary Differential Equations | 63 |
HigherOrder Ordinary Differential Equations | 115 |
Fourier Series | 177 |
The Fourier Transform | 239 |
The Laplace Transform | 289 |
The ZTransform | 363 |
The Hilbert Transform | 405 |
The Heat Equation | 565 |
Laplaces Equation | 659 |
Greens Functions | 731 |
Vector Calculus | 813 |
Linear Algebra | 863 |
Probability | 913 |
Random Processes | 969 |
To the OddNumbered Problems | 1037 |
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Expressions et termes fréquents
amplitude apply assume becomes begin boundary conditions called Chapter closed coefficients complex compute Consequently Consider constant continuous contour corresponding defined definition denotes depends derivative determine difference direction distribution eigenfunction element equals evaluate Example expansion express field Figure Finally finite forcing formula Fourier series Fourier transform frequency function given gives Green’s function harmonic Hilbert homogeneous illustrate infinite initial conditions integral interval introduce inverse Laplace transform linear MATLAB matrix mean method Note obtain ordinary differential equations partial particular period phase plot positive probability problem properties random variable roots satisfies separation side simple solution solve Step Substituting surface technique temperature theorem tion vector wave equation yields z-transform zero