Course Objectives:
This course will enable the students to -
Course Outcomes (COs):
Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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Paper Code |
Paper Title |
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CHY-214 (a) |
Mathematic al Concepts - II
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The students will be able to –
CO47: apply basic operations of matrices to solve simultaneous equations. CO48: use basic operations of vectors, vector derivatives and coordinate systems. CO49: apply the basic differential and integral calculus to determine extreme and stationary points of a function. CO50: solve first order and first degree linear differential equation. CO51: apply the concept of complex numbers in solving the related problems. |
Approach in teaching Interactive Lectures
Explicit Teaching
Discussion
Didactic questions
Tutorials
Multimedia Presentations
Demonstration
Learning activities for the students: Self learning Assignments, Peer Assessment, Concept mapping, Think/Pair/Share, Problem Solving, Power Point Presentation Handouts |
The oral and written examinations (Scheduled and surprise tests)
Closed book and open book tests
Quiz
Problem solving exercises
Assignments
Presentation
Semester End Examinations
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Matrix algebra, Determinants, matrix inversion, Solving Simultaneous equations using inverse of a matrix, consistency and independence. Simultaneous equations with three unknowns (e.g. spectrophotometry) using Cramer’s rule. Homogeneous linear equations.
Vectors and coordinate systems: Unit vectors (application in solid state), Component of vectors, addition and subtraction of vectors, multiplication of vectors. Vector calculus: differentiation of vectors, Vector derivative operators(Basic concepts of gradient, divergence and curl).Coordinate systems in three dimensions (Cartesian, polar, spherical and their interconversion).
Maximum and minimum values of functions of two variables. Extreme points and stationary points of a function, Euler’s theorem on homogenous function of two variable. Multiple integrals (Basic concepts of double and triple integral).Changeof order of double integration.
Differential equations: Order and degree of differential equations, solution of first order and first degreedifferential equations with separable variables, homogeneous and linear differential equations, partial differential equation of first order PDE, types of integrals of a PDE, the integral of the Lagranje’s linear equation, solution of first order PDE using Charpit’s method.
Complex numbers, complex plane, Argand diagram,complex conjugates, modulus of a complex number, square root of a complex number, Euler’s formula and polar form of complex numbers.