| Mathematical Methods in Engineering | Hours: 3 0 3 |
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Maxima and Minima of a Function, the Euler Equation I, Ritz's Method, the Euler Equation II, boundary conditions, Subsidiary conditions, Continuity conditions, Galerkin's Method, Minimizing sequence, Transformations in variational problems, Elasticity, Castigliano's theorem, Plasticity, Eigenvalue problem, Variational principles and Eigenvalues, Direct methods for Eigenvalue problems, the Finite Element methods, General use of the Lagrange multiplier, miscellaneous problems, More numerical methods, Bounds for the overall properties of anisotropic composites, Integral transform, Fourier, Laplace, Hankel and Melin transformations and applications, Singular integral equations, Wiener-Hopf techniques, application of conformal mapping, Introduction to asymptotic expansion, Quantum mechanics.
| Pre-requisites: None | Co-requisites: None |
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Hours: XYZ where X = Lecture, Y = Lab, Z = Credit
All hours are per week.
3 Lab hours constitute 1 credit hour
1 credit hour implies 1 lecture of 50mins per academic week. 16 weeks in total.
Pre-Requisite courses are courses required to be completed before this course may be taken
Co-Requisite courses are courses required to be taken along with this course
