LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
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M.Sc. DEGREE EXAMINATION – MATHEMATICS
FIRST SEMESTER – APRIL 2008
MT 1806 – ORDINARY DIFFERENTIAL EQUATIONS
Date : 03/05/2008 Dept. No. Max. : 100 Marks
Time : 1:00 – 4:00
ANSWER ALL QUESTIONS
- a) Suppose x1 (t) and x2 (t) satisfy a x”(t) + b x'(t) + c x(t) = 0,
where ‘a’ is not zero then show that A x1 (t) + B x2 (t) satisfy the Differential Equation.
OR
If the Wronskian of 2 functions x1(t) and x2(t) on I is non-zero for at least one point of the interval
I, show that x1(t) and x2(t) are linearly independent on I. (5 Marks)
- b) i) State and prove the Abel’s Formulae. (8 Marks)
(ii) Solve x” – x’ – 2x = 4t2 using the method of variation of parameters.
(7 Marks)
OR
(iii) If λ is a root of the quadratic equation a λ2 + b λ + c = 0,
prove that eλt is a solution of a x” + bx’ + c x = 0. (15 Marks)
- a) Prove that exp[ x/2( t – t – 1 )] = .
OR
Prove that (1 – 2tx + t2 ) – ½ = if │t│< 1 & │x│≤ 1. (5 Marks)
- b) Solve the Legendre’s Equation ( 1 – x2 ) y´´– 2xy´ + ny = 0
OR
Solve x ( 1 – x ) y´´ + ( 1 – x ) y´ – y =0 (15Marks)
III. (a) Prove that = 2 if n = 0 and
= 0 if n ≥ 1
OR
Find (d/dx) F (α; β; γ; x ) (5 Marks)
(b) Obtain Rodrigue’s Formula and hence find P0(x), P1(x), P2(x) & P3(x).
OR
Show that Pn(x) = 2F1[-n, n+1; 1; (1-x)/2] (15 Marks)
- a) Considering the Differential Equation of the Sturm-Liouville,
show that the eigen values λm and λn corresponding to eigen functions
xm(t) and xn(t) are orthogonal with respect to weight function r(t).
OR
Solve the initial value problem x´ = t + x, x(0) = 1 (5 Marks)
- b) State Green’s Function. x(t) is a solution of L(x) + f(t) = 0
if and only if x(t) = .
OR
State and prove Picard’s Initial value Problem. (15 Marks)
- a) Define Lyapunov’s Stability Statements.
OR
Prove that the null solution of x’ = A (t) x is stable if and only if there
exists a positive constant k such that | Φ | ≤ k, t ≥ t0 . (5 Marks)
- b) State and prove the Fundamental Theorem on the stability of the
equilibrium of a system x’ = f (t, x).
OR
Explain the stability of Quasi-linear system x’ = A(t) x. (15 Marks)
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