ENGINEERING MATHEMATICS I - CBCS Syllabus Notes and Question Papers

ENGINEERING MATHEMATICS-I
15MAT

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 VTU CAMPUS
Course Objectives:

To enable the students to apply the knowledge of Mathematics in various Engineering fields by making them to learn the following:
  • nth derivatives of product of two functions and polar curves.
  • Partial derivatives.
  • Vector calculus.
  • Reduction formulae of integration; To solve First order differential equations.
  • Solution of system of linear equations, quadratic forms.
MODULE 1 - 10 HOURS


Differential Calculus -1: determination of nth order derivatives of Standard functions - Problems. Leibnitz’s theorem (without proof) - problems. Polar Curves - angle between the radius vector and tangent, angle between two curves, Pedal equation of polar curves. Derivative of arc length - Cartesian, Parametric and Polar forms (without proof) - problems. Curvature and Radius of Curvature – Cartesian, Parametric, Polar and Pedal forms (without proof) - problems.


MODULE 2 - 10 HOURS

Taylor’s and Maclaurin’s theorems for function of one variable(statement only)- problems. Evaluation of Indeterminate forms. Partial derivatives – Definition and simple problems, Euler’s theorem (without proof) – problems, total derivatives, partial differentiation of composite functions-problems. Definition and evaluation of Jacobians


MODULE 3 - 10 HOURS

Vector Calculus:
Derivative of vector valued functions, Velocity, Acceleration and related problems, Scalar and Vector point functions. Definition of Gradient, Divergence and Curl-problems. Solenoidal and Irrotational vector fields. Vector identities - div(ɸA), curl (ɸA ), curl( grad ɸ), div(curl A).


 MODULE 4 - 10 HOURS

Integral Calculus:
Reduction    formulae, evaluation of these integrals with standard limits (0 to π/2) and problems.Differential Equations; Solution of first order and first degree differential equations– Exact, reducible to exact and Bernoulli’s differential equations.Orthogonal trajectories in Cartesian and polar form. Simple problems on Newton's law of cooling.


MODULE 5 - 10 HOURS

Linear Algebra:

Rank of a matrix by elementary transformations, solution of system of linear equations - Gauss-elimination method, Gauss –Jordan method and Gauss-Seidel method
Eigen values and Eigen vectors, Rayleigh’s power method to find the largest Eigen value and the corresponding Eigen vector. Linear transformation, diagonalisation of a square matrix . Reduction of Quadratic form to Canonical form




Course outcome:

On completion of this course, students are able to


Question paper pattern:




Text Books:

B.S. Grewal, "Higher Engineering Mathematics", Khanna publishers, 42nd edition, 2013.

Erwin Kreyszig, "Advanced Engineering MathematicsI, Wiley, 2013


Reference Books:

B.V. Ramana, "Higher Engineering M athematics", Tata Mc Graw-Hill, 2006

N.P.Bali and Manish Goyal, "A text book of Engineering mathematics”, Laxmi publications, latest edition.

H.K. Dass and Er. RajnishVerma, "Higher Engineerig Mathematics", S.Chand publishing, 1st edition, 2011.