meta user
network profile
| bio | website | |
|---|---|---|
| location | ||
| age | ||
| visits | member for | 11 months |
| seen | 3 hours ago | |
| stats | profile views | 16 |
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Apr 21 |
accepted | Centroid of a semicircle vs. a semicircular arc |
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Apr 20 |
asked | Centroid of a semicircle vs. a semicircular arc |
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Apr 9 |
revised |
What was the first bit of mathematics that made you realize that math is beautiful? (For children's book) added 198 characters in body |
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Apr 1 |
comment |
Why is propositional logic not Turing complete? Thank you for the detailed answer. By feedback you mean sequential circuits, right? |
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Apr 1 |
accepted | Why is propositional logic not Turing complete? |
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Apr 1 |
awarded | Commentator |
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Apr 1 |
revised |
Why is propositional logic not Turing complete? added 68 characters in body |
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Apr 1 |
comment |
Why is propositional logic not Turing complete? I've heard about this, but they can be considered to be Turing complete for practical purposes, correct? In that they can perform any computation that a Turing machine can up to a memory limit. |
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Apr 1 |
asked | Why is propositional logic not Turing complete? |
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Mar 25 |
accepted | Calculating a derivative from a Maclaurin series |
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Mar 25 |
comment |
Calculating a derivative from a Maclaurin series What do you mean? The terms for $n=1$, $n=3$, $n=5$, etc. are not zero. |
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Mar 25 |
comment |
Calculating a derivative from a Maclaurin series I'm still not sure why having $2n$ in the exponent makes it the $2n$th term. When did it switch from being the $n$th to the $2n$th? |
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Mar 25 |
comment |
Calculating a derivative from a Maclaurin series Thank you. This works, but why? Isn't the $n$th term of a Maclaurin series always $\frac{f^{(n)}(0)\;x^n}{n!}$? |
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Mar 25 |
asked | Calculating a derivative from a Maclaurin series |
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Mar 20 |
accepted | Convergence of improper integrals and asymptotic behaviour |
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Mar 19 |
asked | Convergence of improper integrals and asymptotic behaviour |
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Mar 17 |
awarded | Teacher |
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Mar 17 |
answered | What was the first bit of mathematics that made you realize that math is beautiful? (For children's book) |
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Oct 23 |
accepted | Benford's law with random integers |
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Oct 21 |
comment |
Benford's law with random integers Yes, I meant as the lower bound goes to infinity. Thank you! |
