1,004 reputation
522
bio website about.me/LucasCAPS
location Rio de Janeiro, Brazil
age 26
visits member for 3 years, 4 months
seen Sep 2 at 3:08

Graduated in Applied Mathematics and taking Master's in Statistics at UFRJ.


Jul
2
awarded  Curious
Jul
2
awarded  Inquisitive
Jun
11
awarded  Tumbleweed
Jun
4
asked One-side-discontinuous Riemann-Stieltjes integrator
May
10
asked Finding a derivative through the definition
May
6
awarded  Yearling
Apr
24
awarded  Civic Duty
Mar
29
comment Proving $\big(n!^{\frac1n}\big)_{n\in\mathbb N^*} \to \infty$
Makes sense, but that $a^{n−a}$ shouldn't be there, should it? I edited it out, feel free to rollback if needed. Also, you assume $a\in\mathbb N$, but that's without loss too; one just has to replace $a$ with $\lfloor a\rfloor$.
Mar
29
suggested suggested edit on Proving $\big(n!^{\frac1n}\big)_{n\in\mathbb N^*} \to \infty$
Mar
29
accepted Proving $\big(n!^{\frac1n}\big)_{n\in\mathbb N^*} \to \infty$
Mar
29
asked Proving $\big(n!^{\frac1n}\big)_{n\in\mathbb N^*} \to \infty$
Mar
28
accepted Splitting field of a slightly general polynomial
Mar
28
accepted Average waiting time in a Poisson process
Dec
19
accepted Finding a Fermat number with a given prime factor
Dec
13
awarded  Popular Question
Nov
13
awarded  Popular Question
Jul
29
awarded  Popular Question
May
29
revised Trouble with geometrical application of Lagrange multiplier
rollback
May
20
comment Prime numbers stretch to infinity, but what about the distance between them?
Polignac turned out to be right: golem.ph.utexas.edu/category/2013/05/….
May
14
comment A suspicious way to conclude convergence
Yes. I thought a real divergent sequence had to go to $\pm\infty$.