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  1. I

    MATH2901 Higher Theory of Statistics

    I think you forgot to divide by the determinant of the Fisher Information Matrix. You appear to have multiplied by it (or something).
  2. I

    MATH2901 Higher Theory of Statistics

    I think double check your Var, the beta terms should end up cancelling out I think.
  3. I

    MATH2901 Higher Theory of Statistics

    $\noindent It is the approximate \textbf{variance} of $\widehat{\beta}$ (for large $n$), yes.$
  4. I

    MATH2901 Higher Theory of Statistics

    $\noindent First step would be to find the 1,1 entry of the inverse of the Fisher information matrix (this would be the approximate variance of $\widehat{\alpha}$ for large $n$). To eliminate $\beta$'s from your answer, use the relationship between $\widehat{\alpha}$ and $\beta$ from the MLE...
  5. I

    Use sigma notation to represent each of the following

    $\noindent The fact that the terms form an arithmetic progression with \underline{common difference $5$} tells us that the general term is of the form $5k+b$ for some constant $b$ (where $k$ will be our summation index). Then depending on what you want to start your $k$ as, you can find $b$...
  6. I

    MATH2901 Higher Theory of Statistics

    By the way, this is a Pareto Distribution with scale parameter 1 (and shape parameter alpha). This distribution is related to the "80-20" law or "Pareto principle", which you may have heard of. A fact about Pareto distributions is that the conditional distribution of a Pareto r.v. X given the...
  7. I

    Integration using substitution

    $\noindent Let $I = \int_{0}^{1}x^{3} \left(x^{4} - 3\right)^{4}\, \mathrm{d}x$. Let $u = x^{4} - 3$, so $\mathrm{d}u = 4x^{3}\, \mathrm{d}x \Rightarrow x^{3}\, \mathrm{d} x = \frac{1}{4}\mathrm{d}u $. \textsl{For the limits, when $x = 0$, $u = 0 - 3 = -3$, and when $x = 1$, $u = 1 - 3 = -2$.}...
  8. I

    SHM Question

    $\noindent Let $\omega = \frac{1}{3}$, then by SHM facts, we know $\ddot{x} = -\omega^{2} x$. Thus acceleration $\ddot{x}$ is greatest when $x$ is least. On the given interval, this is actually when (and only when) $t = 0$, since $x(t) \geq 0$ for all $t \in [0,2\pi]$ with equality iff $t = 0$.$...
  9. I

    Statistics Marathon & Questions

    Not sure if this is the reason but make sure to have spaces between the inequality signs and neighbouring text when typing them on BOS (otherwise it appears to mess up sometimes).
  10. I

    Statistics Marathon & Questions

    If it's a continuous case (joint PDF), we could integrate the joint PDF over the region in the x-y plane S := {(x,y) : x + y < 1}. (In other words, calculate a double integral.)
  11. I

    VCE Maths questions help

    It's the slope of the tangent at the given point (and we're given that tangent's equation (we're given that the line is tangent)).
  12. I

    VCE Maths questions help

    4
  13. I

    Statistics Marathon & Questions

    It is not. There is an adjustment factor.
  14. I

    Statistics Marathon & Questions

    $\noindent (This question is showing that if $X$ is log-normal, then $\ln X$ is normal.) Just determine the pdf or cdf of $Y$ and you should be able to see it is the pdf/cdf of a $\mathcal{N}\left(0,\sigma^{2}\right)$ random variable, and hence $Y$ has that distribution. To do this question, you...
  15. I

    MATH2601 Higher Linear Algebra

    $\noindent For (ii), let $B = PJP^{-1}$ where $J$ is the Jordan form of $B$, then use what you know about the eigenvalues of $B$ and the fact that $B + I= P(J+I)P^{-1}$ to deduce the result.$ $\noindent And I think (iii) is simpler than you (probably) think.$
  16. I

    MATH1081 Discrete Maths

    75 divided by 3 is not 28.
  17. I

    MATH2901 Higher Theory of Statistics

    It's used in many hypothesis tests, for example.
  18. I

    MATH1081 Discrete Maths

    Almost all the terms cancel. If you can't see it immediately, it might help you to write out the terms of each sum in long notation.
  19. I

    Statistics Marathon & Questions

    $\noindent It's a \emph{standardised} version of $\overline{X}$. I can't see the context but I'm guessing $\overline{X}$ is the average of $n$ i.i.d. $\mathcal{N}\left(\mu, \sigma^{2}\right)$ random variables. This implies that $\overline{X}$ is a normal random variable with mean $\mu$ and...
  20. I

    Statistics Marathon & Questions

    It's very close to 0. Here's a numerical calculation via WolframAlpha: http://www.wolframalpha.com/input/?i=Pr(Z+%3E+4.38),+Z+~+N(0,+1) .
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