ST 3503/ST 3501/ST 3500 – STATISTICAL MATHEMATICS – II

Date : 24-04-2012 Dept. No. Max. : 100 Marks

Time : 9:00 – 12:00

PART – A

Answer ALL the questions: [10×2 =20]

interval [a, b].

Examine whether the function f(x) = 1/x² , for x≥1, is a p.d.f. If so find
Define improper integral of II kind.
Define Gamma integral and state when it converges.
Let u = (3y – x) / 6 and v= x / 3. Obtain the Jacobian of transformation.
Examine whether f(x,y) = 2, 0 < x < y < 1, is a bivariate probability density function.
When do we say that a differential equation is variables separable? Show that (1 – x) dy –

(3 + y) dx = 0 is variables separable.

PART – B

Answer any FIVE questions: [5×8 =40]

Evaluate from first principles.
Show that every continuous function defined on a closed interval of the real line is

Riemann integrable.

Obtain the moment generating function of the two parameter Gamma distribution. Hence

find the mean and variance.

x^m-1(1-x)^n-1dx.

State and prove Initial Value and Final Value Theorems of Laplace transforms.
If λ is the characteristic root of a non-singular matrix A, show that is the characteristic

root of the matrix .

PART – C

Answer any TWO questions: [2×20 =40]

(a) If f(x) and g(x) are two Riemann-integrable functions, then show that the sum

f(x) + g(x) is also Riemann integrable.

(b) State and Prove the First Fundamental Theorem of integral calculus.

(a) Establish the relation between the Beta function and Gamma function. Hence find the

value of β(1/2, 1/2).

(b) For a non-negative function f(t) =tⁿ show that

.Γ(n+1).

(a) Solve the following differential equation using Laplace transform, where y(0) = 3 and

y ¢(0) = 6 :

(b) Obtain the inverse transform of

of A.