Let T be a complete sufficient real-valued statistic for the parameter theta and S be another real-valued statistic whose distribution function F does not depend on the parameter theta. Show that P(S<=s∣T)−F(s) equals zero almost surely under each P_theta and for each real s. Conclude from this that S and T are independent.

reevelingw97

reevelingw97

Answered question

2022-11-18

Let T be a complete sufficient real-valued statistic for the parameter θ and S be another real-valued statistic whose distribution function F does not depend on the parameter θ. Show that P ( S s T ) F ( s ) equals zero almost surely under each P θ and for each real s. Conclude from this that S and T are independent.

Answer & Explanation

cismadmec

cismadmec

Beginner2022-11-19Added 22 answers

The general term of an arithmetic sequence is given by the formula:
a n = a + d ( n - 1 )
where a is the initial term and d the common difference.
Given a 8 = 26 and a 12 = 42 , we find:
16 = 42 - 26
16 = a 12 - a 8
16 = ( a + 11 d ) - ( a + 7 d )
16 = 4 d
Hence d=4
Then:
26 = a 8 = a + 7 d = a + 28
Hence a=−2
So the first five terms of the sequence are:
−2,2,6,10,14

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