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2\times 3\times 7
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Algebra
5 道与此类似的题目:
factor(42)
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factor9.12
https://www.tiger-algebra.com/drill/factor9.12/
(912/100) Final result : 228 ——— = 9.12000 25 Reformatting the input : Changes made to your input should not affect the solution: (1): "9.12" was replaced by "(912/100)". Step by step solution : ...
g2-11g+30=0
https://www.tiger-algebra.com/drill/g2-11g_30=0/
g2-11g+30=0 Two solutions were found : g = 6 g = 5 Reformatting the input : Changes made to your input should not affect the solution: (1): "g2" was replaced by "g^2". Step by step ...
Why does mathematical convention deal so ineptly with multisets?
https://math.stackexchange.com/q/152223/11994
This question reminded me of several notes by the influential computer scientist Edsger W. Dijkstra, who spent a lot of time thinking about how our notation can affect how we think and reason ...
Cayley-Hamilton Theorem proof
https://math.stackexchange.com/questions/3104993/cayley-hamilton-theorem-proof
You are trying to show that: (P^{-1}AP-\lambda_{1}I)^{k_{1}}\dots(P^{-1}AP-\lambda_{m}I)^{k_{m}}=0 let's take one subspace: (P^{-1}AP-\lambda_{1}I)^{k_{1}} then it's equal to \begin{bmatrix} ...
Cannot find length of repeating block in decimal expansion for \frac{17}{78}
https://math.stackexchange.com/questions/802448/cannot-find-length-of-repeating-block-in-decimal-expansion-for-frac1778
Note that the period for a prime p is a factor of \varphi (p)=p-1 but need not be equal to it. This is because 10^{p-1} \equiv 1 \mod p. The period is the least n for which p|(10^n-1). If ...
Is it a valid algorithm to win at the casino roulette?
https://stats.stackexchange.com/q/100137
You have discovered the Martingale . It is a perfectly reasonable betting strategy, which was played by Casanova and also by Charles Wells , but unfortunately it doesn't win in the long run. ...
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