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- calculus - Evaluating $\int_0^ {\pi 2} \frac {\sqrt {\tan x}} {\sin x . . .
Evaluating ∫π 2 0 tan x√ sin x(cos x+sin x) dx ∫ 0 π 2 tan x sin x (cos x + sin x) d x Ask Question Asked 1 year, 11 months ago Modified 6 months ago
- calculus - Evaluating $\int_ {0}^ {1} \frac {1} {x + \sqrt {x^2 + x + 1 . . .
Got an integral that I have to evaluate using Euler substitution, but at one point I'm getting stuck Tried different ways of solving, can't figure out The integral is $$ \int_ {0}^ {1} \frac {1} {x +
- Evaluating $ \\frac{35887+j(1050)}{-2824+j(-17)}$, where $j^2=-1$
$$ \frac {35887+j (1050)} {-2824+j (-17)} \ = \ ? $$ This above number is supposed to be the sprung mass response factor to road input at frequency of 6 91 radians second for the front suspension of a
- Evaluating integrals with sigma notation - Mathematics Stack Exchange
Evaluating integrals with sigma notation Ask Question Asked 13 years, 3 months ago Modified 8 years, 2 months ago
- calculus - Evaluating $\int_0^\pi \log (\sin x) \mathrm dx$ using . . .
Evaluating ∫π 0 log(sin x)dx ∫ 0 π log (sin x) d x using Riemann sums Ask Question Asked 13 years, 3 months ago Modified 4 months ago
- integration - Evaluating $\int x^2 \sqrt {x^2-1} dx$ - Mathematics . . .
2 How do I evaluate the following indefinite integral? As a general rule, whenever evaluating an integral containing x2 ±a2− −−−−−√ x 2 ± a 2, one of the most natural substitutions is x = a cosh t x = a cosh t or x = a sinh t x = a sinh t, depending on the sign
- Evaluating $\\lim\\limits_{n\\to\\infty} e^{-n} \\sum\\limits_{k=0}^{n . . .
I'm supposed to calculate: $$\\lim_{n\\to\\infty} e^{-n} \\sum_{k=0}^{n} \\frac{n^k}{k!}$$ By using WolframAlpha, I might guess that the limit is $\\frac{1}{2
- Evaluating $ \\lim_{x \\to 0} \\frac{e - (1 + 2x)^{1 2x}}{x} $ without . . .
Evaluating limx→0 e−(1+2x)1 2x x lim x → 0 e (1 + 2 x) 1 2 x x without using any expansion series [closed] Ask Question Asked 10 months ago Modified 9 months ago
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