Subjects
Applied Mathematics for Electrical Engineering - 3130908
Complex Variables and Partial Differential Equations - 3130005
Engineering Graphics and Design - 3110013
Basic Electronics - 3110016
Mathematics-II - 3110015
Basic Civil Engineering - 3110004
Physics Group - II - 3110018
Basic Electrical Engineering - 3110005
Basic Mechanical Engineering - 3110006
Programming for Problem Solving - 3110003
Physics Group - I - 3110011
Mathematics-I - 3110014
English - 3110002
Environmental Science - 3110007
Software Engineering - 2160701
Data Structure - 2130702
Database Management Systems - 2130703
Operating System - 2140702
Advanced Java - 2160707
Compiler Design - 2170701
Data Mining And Business Intelligence - 2170715
Information And Network Security - 2170709
Mobile Computing And Wireless Communication - 2170710
Theory Of Computation - 2160704
Semester
Semester - 1
Semester - 2
Semester - 3
Semester - 4
Semester - 5
Semester - 6
Semester - 7
Semester - 8
Applied Mathematics for Electrical Engineering
(3130908)
AMEE-3130908
and Runge-Kutta methods
BE | Semester
3
Topic : and Runge-Kutta methods
BE - Semester -
Winter - 2019
-
26-11-2019
Total Marks :
70
Q3
(c ( ii ))
Winter-2019
State the formula for Runge-Kutta method of fourth order and use it to calculate
y
(
0
.
2
)
, given that
y
'
=
x
+
y
,
y
(
0
)
=
1
taking
h
=
0
.
1
.
4 Marks
Unit : Numerical solution of Ordinary Differential Equations
