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Statistics Marathon & Questions (2 Viewers)

InteGrand

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Re: Statistics

Getting lost in what it means to converge in distribution to a constant



But I'm not seeing how FX(x) is allowed to be a constant. Because doesn't FX(x) technically have to satisfy these?



(ignoring the abuse of notation)
Converging in distribution to a constant means the limiting random variable X that we are converging in distribution to is a constant random variable (see https://en.wikipedia.org/wiki/Degenerate_distribution ). It does not mean the CDF of the limiting random variable X is constant (the CDF isn't constant in fact, of course).
 
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leehuan

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Re: Statistics

Are you familiar with indicator functions?
If I smack an indicator function onto the f(theta;x_1,...,x_n) it would be indicating on [0≤x≤theta] right?
 

leehuan

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Re: Statistics



Can I just assume that I have a bivariate Gaussian distribution with X1 and X2 independent?
 
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Flop21

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Re: Statistics



For finding the var of this, why in the answers do they square 1/n ? Isn't it just 1/n sum(i=0..n) Var (Xi)??
 

Flop21

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Re: Statistics



To find the variance of this.... why do the answers have 4Var(X), where does this 4 come from??

Thanks
 

InteGrand

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Re: Statistics



For finding the var of this, why in the answers do they square 1/n ? Isn't it just 1/n sum(i=0..n) Var (Xi)??


To find the variance of this.... why do the answers have 4Var(X), where does this 4 come from??

Thanks
Remember, there is an identity Var(cX) = c2 Var(X), if c is a constant. In other words, to get the variance of a constant times something, the constant can come outside but gets squared.
 

leehuan

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Re: Statistics

Does sure convergence necessarily imply every other form of convergence?
 

Flop21

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Re: Statistics



Finding the confidence interval of something, but where do they get the variance for the se in this picture???
 

InteGrand

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Re: Statistics



Finding the confidence interval of something, but where do they get the variance for the se in this picture???
It's a standard formula for the variance of a sample proportion, and basically comes from the formula for the variance of a Bernoulli(p) random variable (or variance of a Binomial(n, p) random variable).

It's worked through on this page, for example: http://amsi.org.au/ESA_Senior_Years/SeniorTopic4/4g/4g_2content_3.html (scroll down a bit to the section "Mean and variance of the sample proportion" for the derivation part).
 

Flop21

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Re: Statistics

It's a standard formula for the variance of a sample proportion, and basically comes from the formula for the variance of a Bernoulli(p) random variable (or variance of a Binomial(n, p) random variable).

It's worked through on this page, for example: http://amsi.org.au/ESA_Senior_Years/SeniorTopic4/4g/4g_2content_3.html (scroll down a bit to the section "Mean and variance of the sample proportion" for the derivation part).
Thank you this helps so much!
 

Flop21

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Re: Statistics

Why are the answers using Xbar +- 1.96 sqr(Xbar/n) for confidence intervals?? With 95% confidence.

I can only find formulas for Xbar +- Z * delta/sqr(n)

And I thought Z = 1-0.05/2 for 95% confidence...



--

Sorry if stupid questions, but I'm so lost with this course, super behind. And I can't seem to find the right formulas in the notes.
 

InteGrand

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Re: Statistics

Why are the answers using Xbar +- 1.96 sqr(Xbar/n) for confidence intervals?? With 95% confidence.

I can only find formulas for Xbar +- Z * delta/sqr(n)

And I thought Z = 1-0.05/2 for 95% confidence...



--

Sorry if stupid questions, but I'm so lost with this course, super behind. And I can't seem to find the right formulas in the notes.


https://en.wikipedia.org/wiki/1.96 .
 

Flop21

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Finding the maximum likelihood estimator of theta when X1, X2...Xn is a random sample from the density:

fX(x;theta) = theta * e^(-theta*x), x > 0; theta > 0.


So to do this I tried, finding the likelihood estimator, then the log likelihood estimator getting... sum(i=0..n)[ln(theta * e^(-theta*x))].

Then simplifying to.... nln(theta) - theta * sum(x). Then differentiating i got, n/theta - sum(x)... theta then = n/sum(x).

But the answers show, 1/X(bar). How did they get this?
 

InteGrand

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Finding the maximum likelihood estimator of theta when X1, X2...Xn is a random sample from the density:

fX(x;theta) = theta * e^(-theta*x), x > 0; theta > 0.


So to do this I tried, finding the likelihood estimator, then the log likelihood estimator getting... sum(i=0..n)[ln(theta * e^(-theta*x))].

Then simplifying to.... nln(theta) - theta * sum(x). Then differentiating i got, n/theta - sum(x)... theta then = n/sum(x).

But the answers show, 1/X(bar). How did they get this?
 

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