Download DU (University of Delhi) B-Tech (Bachelor of Technology) 4th Semester 2425 Numerical Methods Question Paper
Sr. No. of Question Paper : 2425 F-4 Your Roll No ................
Unique Paper Code : 2352601
Name of the Course : B.Tech. : Allied Course
Name of the Paper : Numerical Methods
Semester : IV
Duration : 3 Hours Maximum Marks : 75
Instructions for Candidates
1.
2
3.
4
Write your Roll No. on the top immediately on receipt of this question paper.
Attempt any two parts from each question.
All questions are compulsory.
Use of Scienti?c Calculator is allowed.
@
@
?
?
De?ne the following terms
??40 Order of methodA
(ii) Floating point representation
(iii) Local truncation error (6)
Perform ?ve iterations by Bisection method to ?nd the square root of 7.
@
Apply Regula-Falsi method to x3 + x2 - 3x ? 3 = O to determine an
approximation to a root lying in the interval (1, 2). Perform four iterations.
@
Use Newton?s method to solve the given non-linear system of equations:
f(x,y)=x24.--y-2?1=0. I
gmw=?-y=0
RTO.
2425 2
Take initial approximation (x0, yo) = (0.5, 0.5) and perform two iterations.
(6.5)
(b) Solve the following system of equations by using Gauss elimination (row
pivoting) method.
3x ? y + 22 = 7
x + y + 22 = 9
2x?2y?z=? (6.5)
(c) Solve the following system of equation using Gauss Thomas method
2x?y=1
||
0
?z+2t?u
?t+2u?v=0
?u + 2v = 1 (6.5)
3. (a) Using Gauss-Jacobi method to solve given system of equations:
2xl?x2 +x3 =?1
xl+2x2?x3=6
II
x x] ? x2 + 2x3 ?3
Take initial approximation as X?) = (0, 0, 0)T and perform three iterations.
(6)
< (b) For the function?x) = ln(x), construct Lagrange form of the interpolating
polynomial for f(x) passing through the points (1, In 1), (2, 1n2) and (3,1n3).
Use the polynomial to estimate ln(l.5) and ln(2.4). (6)
2425
4.
3
(c) prove the following identities
(i) 6 = V(l ? V)-?2
. 1 _ -M
(1?) V(E)? m1 (6)
(a) Use Richardson extrapolation to estimate the first derivative of
y = cosx.e?x at x=1.0 using step size h=0.25. Employ the forward divided-
difference formula to obtain the initial estimates. (6.5)
(b) Obtain the piecewise linear interpolating polynomials for the function f(x)
de?ned by the data
x 3 4.5 7 9
f(x) 2.5 . 1.0 2.5 0.5
Hence estimate the values of f(3.5), f(3.5) and f(8), f(8). What will be the
estimate of higher order derivatives in piecewise linear interpolating polynomial
(6.5)
(c) Derive backward divided difference formula of error O(hz). Using the derived
formula estimatef"(15) for the data given below with error O(h.)and O(hz)
respectively.
x 0 l O 20 3 0
f(x) 56 94 108 120 (6.5)
(a) Derive Simpsons 1/3 rule formula. (6)
(b) Compute I:(x.e2")dx using Gaussian Quadrature (6)
(c) Compute J: log(x2 + 1)dx using
P.T.0.
2425 4
(i) Trapezoidal Rule with n(number of sub-intervals)=4
(ii) Newton Cotes two point open formula (6)
6. (a) Solve the following initial value problem over the interval from x=0 to 2
where y(0)= 1
dy_ 3
dx?yx -?1.5y
(i) Using Euler method with step size of 0.5.
(ii) Using Modi?ed Euler method with step size of 0.5. (6.5)
(b) Describe the method(only) of ?tting cubic spline to the following data
x l 2 2.5 3
f (x) 1 5 7 8 (6.5)
(0) Apply ?nite-difference method to solve the problem:
?dzy
d?2x=(1 + x2)y ?1 < x <1
mmyGU=yU)=Lth=02. (63
(1200)
This post was last modified on 31 January 2020