About this class
Advanced Engineering Mathematics
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Learning Material
Title
Volume
Complex Analysis: Covers topics such as complex numbers, functions of a complex variable, contour integration, and residue theory.
5.89 MB
<p>Complex Analysis: Covers topics such as complex numbers, functions of a complex variable, contour integration, and residue theory.</p>
Linear Algebra: Includes vector spaces, matrices, eigenvalues, eigenvectors, and applications in engineering.
5.89 MB
<p>Linear Algebra: Includes vector spaces, matrices, eigenvalues, eigenvectors, and applications in engineering.</p>
Differential Equations: Covers ordinary differential equations, partial differential equations, and various solution techniques.
5.89 MB
<p>Differential Equations: Covers ordinary differential equations, partial differential equations, and various solution techniques.</p>
Probability and Statistics: Introduces probability theory, random variables, probability distributions, and statistical methods for engineering applications.
5.89 MB
<p>Probability and Statistics: Introduces probability theory, random variables, probability distributions, and statistical methods for engineering applications.</p>
Numerical Methods
5.89 MB
<p>Numerical Methods: Focuses on numerical techniques for solving mathematical problems, including interpolation, numerical integration, and solving differential equations numerically.</p>
Vector Calculus
5.89 MB
<p>Vector Calculus: Includes topics like gradient, divergence, curl, line integrals, and surface integrals, which are essential for understanding physics and engineering problems.</p>
Fourier Analysis
5.89 MB
<p>Fourier Analysis: Introduces Fourier series and Fourier transforms, which are crucial for signal processing and solving partial differential equations.</p>
Complex Variable Methods
5.89 MB
<p>Complex Variable Methods: Covers topics such as Laplace transforms, Fourier transforms, and applications in solving differential equations and systems analysis.</p>
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