BMATE101 Mathematics for EEE Stream
BMATE101 Mathematics for EEE Stream

Syllabus Copy

Module - 1

Calculus

Introduction to polar coordinates and curvature relating to EC & EE Engineering applications.Polar coordinates, Polar curves, angle between the radius vector and the tangent, angle between two curves. Pedal equations. Curvature and Radius of curvature – Cartesian, Parametric, Polar and Pedal forms. Problems. Self-study: Center and circle of curvature, evolutes and involutes. Applications: Communication signals, Manufacturing of microphones, and Image processing.

Module - 2

Series Expansion and Multivariable Calculus

Introduction of series expansion and partial differentiation in EC & EE Engineering applications. Taylor’s and Maclaurin’s series expansion for one variable (Statement only) – problems. Indeterminate forms – L’Hospital’s rule – Problems. Partial differentiation, total derivative – differentiation of composite functions. Jacobian and problems. Maxima and minima for a function of two variables. Problems. Self-study: Euler’s Theorem and problems. Method of Lagrange’s undetermined multipliers with single constraint. Applications: Series expansion in communication signals, Errors and approximations, and vector calculus.

Module - 3

Ordinary Differential Equations (ODEs) of First Order

Introduction to first-order ordinary differential equations pertaining to the applications for EC & EE engineering. Linear and Bernoulli’s differential equations. Exact and reducible to exact differential equationsIntegrating factors on 1 𝑁 ( 𝜕𝑀 𝜕𝑦 − 𝜕𝑁 𝜕𝑥) 𝑎𝑛𝑑 1 𝑀 ( 𝜕𝑁 𝜕𝑥 − 𝜕𝑀 𝜕𝑦). Orthogonal trajectories, L-R and C-R circuits. Problems. Non-linear differential equations: Introduction to general and singular solutions, Solvable for p only, Clairaut’s equations,reducible to Clairaut’s equations.Problems. Self-Study: Applications of ODEs, Solvable for x and y. Applications of ordinary differential equations: Rate of Growth or Decay, Conduction of heat.

Module - 4

Integral Calculus

Introduction to Integral Calculus in EC & EE Engineering applications. Multiple Integrals: Evaluation of double and triple integrals, evaluation of double integrals by change of order of integration, changing into polar coordinates. Applications to find Area and Volume by double integral.Problems. Beta and Gamma functions: Definitions, properties, relation between Beta and Gamma functions. Problems. Self-Study: Volume by triple integration, Center of gravity. Applications: Antenna and wave propagation, Calculation of optimum power in electrical circuits, field theory.

Module - 5

 Linear Algebra

Introduction of linear algebra related to EC & EE engineering applications. Elementary row transformationofa matrix, Rank of a matrix. Consistency and Solution of system of linear equations – Gauss-elimination method, Gauss-Jordan method and approximate solution by Gauss-Seidel method. Eigenvalues and Eigenvectors, Rayleigh’s power method to find the dominant Eigenvalue and Eigenvector. Self-Study: Solution of system of equations by Gauss-Jacobi iterative method. Inverse of a square matrix by Cayley- Hamilton theorem.Applications of Linear Algebra: Network Analysis, Markov Analysis, Critical point of a network system. Optimum solution.

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