LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
M.Sc. DEGREE EXAMINATION – STATISTICS
FIRST SEMESTER – APRIL 2012
ST 1814/1809 – MEASURE AND PROBABILITY
Date : 25-04-2012 Dept. No. Max. : 100 Marks
Time : 9:00 – 12:00
SECTION – A
Answer all the questions (10×2=20)
- Define Increasing and Decreasing sequence of sets
- Define Field
- Define Monotone class
- Define Borel σ-field
- Define Measure
- Define Random variable
- State Chebyshev’s Inequality
- State Minkowski’s Inequality
- Establish: E[log(X)]≤log[E(X)]
- Define Convergence in Distribution
SECTION B
Answer any five questions (5×8=40)
- i) Establish: If A1,A2,A3,. . . , An be subsets of Ω, then
- ii) If {An, n ≥1} is an increasing sequence of subsets of Ω then
- State and Establish Cauchy-Schwartz Inequality
- Establish: Every σ-field is a field but the converse is not true
- Establish: If and then
- Prove by an Example: X2 and Y2 are independent need not imply X and Y are independent
- i) Establish: If E[h(X)] exist then E[h(X)] = E[E{h(X)|y}] (6)
- ii) Define Jenson’s Inequality (2)
- Find the density function of a distribution whose characteristic function is given below
- State Lindeberg-Feller Central limit theorem and hence prove Liapounov’s Central Limit therorem
SECTION C
Answer any two questions (2×20=40)
- State and prove Basic Integration theorem
- i) State and Prove Monotone Convergence Theorem (10)
- ii) The Minimal σ-field generated by the class of all open intervals is a Borel σ-field (10)
- i) State and Establish Minkowski’s Inequality (10)
- ii) Let µ be a finitely additive set function on a field F of subsets of Ω. Further let µ is
continuous from above at Φ F , then µ is countably additive on F (10)
- i) State and prove Inversion theorem on characteristic function (10)
- ii) State and Establish Lindeberg-Levy Central limit theorem (10)
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