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| bio | website | |
|---|---|---|
| location | ||
| age | ||
| visits | member for | 1 year, 3 months |
| seen | May 22 at 7:49 | |
| stats | profile views | 15 |
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May 14 |
awarded | Caucus |
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May 6 |
awarded | Yearling |
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Apr 8 |
awarded | Nice Question |
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Apr 8 |
awarded | Scholar |
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Apr 8 |
accepted | Is this number rational? |
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Apr 8 |
asked | Is this number rational? |
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Jul 4 |
answered | Reducing degrees of freedom of a Hamiltonian by restricting first integrals |
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Jul 4 |
revised |
Show that $\displaystyle{\frac{1}{9}(10^n+3 \cdot 4^n + 5)}$ is an integer for all $n \geq 1$ changed dot to cdot, to avoid confusion between 3.4 and 3 times 4 |
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Jul 4 |
suggested | suggested edit on Show that $\displaystyle{\frac{1}{9}(10^n+3 \cdot 4^n + 5)}$ is an integer for all $n \geq 1$ |
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Jun 28 |
awarded | Teacher |
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Jun 28 |
answered | 6/2*(1+2) is 1 or 9? |
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Jun 15 |
revised |
Fastest convergence Series which approximates function added more details about the question |
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Jun 15 |
comment |
Fastest convergence Series which approximates function Consider the taylor series of exp(x) centered at 0. An approximation to calculate exp(x) with an error \epsilon (e.g. to know the value of exp(x)\pm\epsilon would be to sum that taylor series till the next term of the series is less than \epsilon. \epsilon is what I define has error. I will edit the post to try to be more explicit. |
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Jun 15 |
comment |
Fastest convergence Series which approximates function @QiaochuYuan : In the sense that the error converges in the minimum number of terms possible. |
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Jun 15 |
comment |
Fastest convergence Series which approximates function @J.M. ok. That already helps a lot! |
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Jun 15 |
awarded | Editor |
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Jun 15 |
comment |
Fastest convergence Series which approximates function @Andrew I've added some more information to the question. |
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Jun 15 |
revised |
Fastest convergence Series which approximates function Added some more information to the question |
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Jun 14 |
comment |
Fastest convergence Series which approximates function @Andrew Ok, so the set is real numbers. which polynomials are you talking? |
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Jun 14 |
asked | Fastest convergence Series which approximates function |
