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Statistics Marathon & Questions (1 Viewer)

leehuan

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Re: Statistics

U1, ..., Un are iid Unif(0,1)




So I followed their working up to






______________________

Edit: Actually my bad on transcription error, their working stopped here

 
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InteGrand

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Re: Statistics

U1, ..., Un are iid Unif(0,1)




So I followed their working up to






______________________

Edit: Actually my bad on transcription error, their working stopped here

The integral you were thinking about is actually the "complementary CDF" or "survival function" (though the limits aren't right and I realised I misinterpreted your query before seeing your addendum), which is the probability Y_n > y. It's actually neater here find this survival function first and then just get the CDF of Y_n from that by taking its complement (subtracting it from 1). The reason it's nicer to work with the survival function here is that's we're dealing with a min function, and the minimum of some numbers is greater than something iff all the numbers are greater than that thing. If instead we were working with a max function, it'd be nicer to use the CDF, because a maximum of some numbers is less than or equal to something iff all the numbers are less than or equal to that thing.

Edit: I think I misinterpreted your query (I think I get it now after seeing your addendum). I addressed what I think was your query in my next post.
 
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InteGrand

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Re: Statistics

U1, ..., Un are iid Unif(0,1)




So I followed their working up to






______________________

Edit: Actually my bad on transcription error, their working stopped here

 
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leehuan

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Re: Statistics

I computed an MGF to be



Therefore it does not exist because it's not defined for any u in [interval containing 0] right?
 

InteGrand

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Re: Statistics

I computed an MGF to be



Therefore it does not exist because it's not defined for any u in [interval containing 0] right?
Actually that function has finite limit as u -> 0, as you can show using L'Hôpital's rule for example. So the MGF does exist.
 

leehuan

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Re: Statistics

Actually that function has finite limit as u -> 0, as you can show using L'Hôpital's rule for example. So the MGF does exist.
Nice. I knew I was missing something.
 

He-Mann

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Re: University Statistics Discussion Marathon

Can't any quick way of doing it at the moment. Please let me know if any of this is wrong.



Since probabilities sum to 1, we have



By symmetry (i.e. Pascal's Triangle), we have



Then from (*), we have



Now, we compute the desired probability,



In retrospect, I should have wrote p = 0.5 = 1 - p and combined the product which would make it easier to read.
 
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leehuan

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Re: Statistics







Once again stuck on domains. I keep forgetting how linear transforms map regions so maybe just another 'by inspection' method please?

(Intuitive guess: -60 < z < 60. Just don't know how to get there)
 

InteGrand

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Re: Statistics







Once again stuck on domains. I keep forgetting how linear transforms map regions so maybe just another 'by inspection' method please?

(Intuitive guess: -60 < z < 60. Just don't know how to get there)
It's quite easy with the linear transforms method. The sample space in the v-w space is just a square. A square gets mapped to a parallelogram in the u-z space (in general) by a linear transformation like the one you have. (Recall that in general, an invertible linear map from Rn to Rn will map lines to lines and parallelograms to parallelograms.)

To find the coordinates of the vertices this parallelogram, just find what points each of the vertices of the square in the v-w sample space get mapped to by the linear transformation. Then the interior of the sample space in the v-w space gets mapped to the inside of the parallelogram with those vertices in the u-z space.
 
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InteGrand

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Re: Statistics







Once again stuck on domains. I keep forgetting how linear transforms map regions so maybe just another 'by inspection' method please?

(Intuitive guess: -60 < z < 60. Just don't know how to get there)
 

leehuan

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Re: Statistics

That's interesting, u - 60 < z \le u was the first thing I had.

 

InteGrand

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Re: Statistics

Awesome, I finally see it.
Nice. Incidentally, here's what the graph of the pdf should look like: http://www.graphsketch.com/?eqn1_co..._lines=1&line_width=4&image_w=850&image_h=525 .

Basically a symmetric triangle shaped graph on (-60, 60) that has value 0 at the endpoints (this is enough to specify the height of the triangle too (and hence the pdf), since the total area under the curve must be 1). You may like to think about coming up with an intuitive explanation of why we could have expected this.
 

leehuan

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Re: Statistics

Nice. Incidentally, here's what the graph of the pdf should look like: http://www.graphsketch.com/?eqn1_co..._lines=1&line_width=4&image_w=850&image_h=525 .

Basically a symmetric triangle shaped graph on (-60, 60) that has value 0 at the endpoints (this is enough to specify the height of the triangle too (and hence the pdf), since the total area under the curve must be 1). You may like to think about coming up with an intuitive explanation of why we could have expected this.
Hmm.

The original question defined V and W as the time taken for two different persons have to wait for their train to ride (given that they do not have to wait any more than 1 hour). The fact that V and W were Unif(0,60) could suggest why it's a triangle (and not say the bell curve), and it "decreases in both directions from 0" because

Bad description because my brain seems to not be working, but there would be less 45 min time ranges than say, 20 min time ranges within a 1 hour time span?
 

He-Mann

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Re: University Statistics Discussion Marathon

Bump! Really interested if someone has thought up of a more efficient way to do the question (or identify, if it exists, the flaws in my work).
 

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