| Lesson Plan |
| Name of the Faculty : Urmila Bhardwaj |
| Discipline : B.Tech.- ME |
| Semester : 3rd |
| Subject : Mathematics-3 |
| Lesson Plan Duration : 15 weeks (from August, 2018 to November, 2018 ) |
| Work Load (Lecture) per week (in hours) : Lectures - 03 and 01 Tutorial |
| Weeks |
Theory |
|
Lecture/Tutorial |
Topic |
| Day |
(Including assignment / Test) |
| 1st |
1st |
Definition of Partial Differential Equations, First order partial differential equations |
| 2nd |
Solutions of first order linear PDEs |
| 3rd |
Solution to homogenous and linear partial differential equations of second order by complimentary function and particular integral method. |
| 4th |
Test of above three topics |
| 2nd |
1st |
Solution to homogenous and linear partial differential equations of second order by complimentary function and particular integral method. |
| 2nd |
Solution to non homogenous and linear partial differential equations of second order by complimentary function and particular integral method. |
| 3rd |
Solution to non homogenous and linear partial differential equations of second order by complimentary function and particular integral method. |
| 4th |
|
| 3rd |
1st |
Second-order linear equations and their classification with Initial conditions |
| 2nd |
Second-order linear equations and their classification with boundary conditions |
| 3rd |
D'Alembert's solution of the wave equation |
| 4th |
Test of above three topics |
| 4th |
1st |
Duhamel's principle for one dimensional wave equation. |
| 2nd |
Heat diffusion and vibration problems |
| 3rd |
Separation of variables method to simple problems in Cartesian coordinates. |
| 4th |
Test of above three topics |
| 5th |
1st |
The Laplacian in plane, cylindrical and spherical polar coordinates |
| 2nd |
Solutions with Bessel functions and Legendre functions |
| 3rd |
One dimensional diffusion equation and its solution by separation of variables |
| 4th |
Test of above three topics, Assignment of 1st unit |
| 6th |
1st |
Probability spaces and conditional probability |
| 2nd |
Independence of events ; Discrete random variables |
| 3rd |
Independent random variables, the multinomial distribution |
| 4th |
Test of above three topics |
| 7th |
1st |
Poisson approximation to the binomial distribution |
| 2nd |
Infinite sequences of Bernoulli trials |
| 3rd |
Sums of independent random variables |
| 4th |
Test of above three topics |
| 8th |
1st |
Expectation of Discrete Random Variables, Moments |
| 2nd |
Variance of a sum, Correlation coefficient |
| 3rd |
Chebyshev's Inequality |
| 4th |
Test of above three topics |
| 9th |
1st |
Continuous random variables and their properties |
| 2nd |
Distribution functions and densities |
| 3rd |
Normal, exponential and gamma densities |
| 4th |
Test of above three topics |
| 10th |
1st |
Bivariate distributions and their properties |
| 2nd |
Distribution of sums and quotients |
| 3rd |
Conditional densities, Bayes' rule |
| 4th |
Test of above three topics, Assignment of 2nd unit |
| 11th |
1st |
Basic Statistics |
| 2nd |
Measures of Central tendency |
| 3rd |
Moments, skewness and Kurtosis |
| 4th |
Test of above three topics |
| 12th |
1st |
Evaluation of statistical parameters using Binomial distribution |
| 2nd |
Evaluation of statistical parameters using Poisson distribution |
| 3rd |
Evaluation of statistical parameters using Normal distribution |
| 4th |
Test of above three topics |
| 13th |
1st |
Rank correlation. Curve fitting by the method of least squares- fitting of straight lines |
| 2nd |
Second degree parabolas and more general curves |
| 3rd |
Large sample test for single proportion |
| 4th |
Test of above three topics |
| 14th |
1st |
Difference of proportions |
| 2nd |
Tests for single mean, difference of means |
| 3rd |
Difference of standard deviations |
| 4th |
Test of above three topics |
| 15th |
1st |
Test for ratio of variances |
| 2nd |
Chi-square test for goodness of fit |
| 3rd |
independence of attributes |
| of attributes |
| 4th |
Test of above three topics, Assignment of 3rd unit |
