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  1. Fus Ro Dah

    Stubborn Number.

    Your answer is correct. The 'one other digit' I used was simply 9. My proof is similar to yours, but uses Euler's Totient Theorem. Suppose N is stubborn. Then N=2^a5^bM, where M is coprime to 2 and 5. But 2^b5^aN=10^{a+b}M is also stubborn, hence all multiples of M must contain all nine...
  2. Fus Ro Dah

    I'll be attempting the 2012 paper, but not officially. That is, I will still be doing it under...

    I'll be attempting the 2012 paper, but not officially. That is, I will still be doing it under exam conditions, but no official mark.
  3. Fus Ro Dah

    Sequence.

    Please explain how you acquired that answer.
  4. Fus Ro Dah

    Sequence.

    My apologies, everybody. I am not thinking clearly at the moment. The initial value T_0 = T.
  5. Fus Ro Dah

    What's your worst AND best exam(s)?

    Best: Extension 2 Mathematics. Worst: Extension 1 Mathematics and English.
  6. Fus Ro Dah

    Sequence.

    Sorry, I made a typo. The first term should read T_{n+1}.
  7. Fus Ro Dah

    Rationals.

    $Determine all pairs of rational numbers $ (x,y) $ such that $ x^3+y^3=x^2+y^2
  8. Fus Ro Dah

    Sequence.

    \\ $Define the sequence $ T_{n+1} = \frac{T_n}{1+nT_n}. \\\\ $Find the value of T_{2012}.$
  9. Fus Ro Dah

    Stubborn Number.

    \\ $A number $ N $ is said to be 'stubborn' if when multiplied by some positive integer $ k $, the end product always contains the digits $ 0,1,2,...,9 $ in any permutation, allowing repetition.$ \\\\ $Prove, or disprove, that the number $ N=526315789473684210 $ is 'stubborn'. If so, do there...
  10. Fus Ro Dah

    Fibbonaci Identity.

    \\ $The Fibbonaci Sequence $ f_1, f_2,..., f_n $ is defined by $ f_1 = f_2 = 1 $ and $ f_n = f_{n-1} + f_{n-2}, n \geq 3. \\\\ $Let $ Q = \begin{bmatrix} 1 & 1 \\ 1 & 0 \end{bmatrix}.$ Prove that $ Q^n = \begin{bmatrix} f_{n+1} & f_n \\ f_n & f_{n-1} \end{bmatrix} $ and hence prove that $ f_{3n}...
  11. Fus Ro Dah

    Not sure at the moment. But I'm doing STEP.

    Not sure at the moment. But I'm doing STEP.
  12. Fus Ro Dah

    Have fun during your gap year then. Chances are, I won't see you at University. But regardless...

    Have fun during your gap year then. Chances are, I won't see you at University. But regardless, do what you like. 'Pre-study' can also be fun, especially with more beautiful topics.
  13. Fus Ro Dah

    Proofs

    I very rarely see 'Probability Proofs'. I am not sure what you're talking about here. Trigonometric Proofs can be found in the Cambridge Mathematics book.
  14. Fus Ro Dah

    Hardest Trial

    Read through and attempted some questions from the paper. Some questions are wrong and your 'warning' at the front, , is very silly and demonstrates a lack of understanding about what Mathematics is all about. Your paper is not 'hard' in the same way as the HSC Examination is. However, it is...
  15. Fus Ro Dah

    Inequality.

    Make the denominator of the entire term become (a+1)(b+1)(c+1).
  16. Fus Ro Dah

    Of course I will be! I cannot imagine myself doing anything else. What about you?

    Of course I will be! I cannot imagine myself doing anything else. What about you?
  17. Fus Ro Dah

    Hardest Trial

    I think I might know someone who may know someone who did the test. I'll ask them to scan a copy of it. I'm really interested to see.
  18. Fus Ro Dah

    Inequality.

    The solution falls out fairly quickly if you use the following identities, but I'm just doing this over the top of my head at the moment. I'll look for a quicker method when I have the time ^^ \\ \frac{a+b+c}{3} \geq \sqrt[3]{abc} = 1 \\\\ a^2+b^2+c^2 \geq ab+bc+ac \\\\ (a+b+c)^2 =...
  19. Fus Ro Dah

    polynomial.

    Personally, I would use an inductive proof.
  20. Fus Ro Dah

    Hardest Trial

    Could I please see the examination paper that students did today?
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