Highest Voted 'wolfram-alpha' Questions - Mathematics Stack Exchange

41

votes

5 answers

What is imaginary infinity, $i\lim\limits_{x \to \infty} x = i\infty$?

Wolfram Alpha says: $$i\lim_{x \to \infty} x = i\infty$$ I'm having a bit of trouble understanding what $i\infty$ means. In the long run, it seems that whatever gets multiplied by $\infty$ doesn't really matter. $\infty$ sort of takes over, and the…

complex-numbers infinity wolfram-alpha

asked May 14 '17 at 03:27

Archie Gertsman

949
1
7
13

32

votes

7 answers

cubic root of negative numbers

Excuse my lack of knowledge and expertise in math,but to me it would came naturally that the cubic root of $-8$ would be $-2$ since $(-2)^3 = -8$. But when I checked Wolfram Alpha for $\sqrt[3]{-8}$, real it tells me it doesn't exist. I came to…

arithmetic wolfram-alpha

asked Mar 07 '11 at 14:24

fasseg

425
1
4
7

31

votes

3 answers

WolframAlpha says limit exists when it doesn't?

I was trying to calculate the following limit: $$ \lim_{(x,y)\to (0,0)} \frac{(x^2+y^2)^2}{x^2+y^4} $$ and, feeding it into WolframAlpha, I obtain the following answer, stating the limit is $0$: However, when I try to calculate the limit when $x…

limits multivariable-calculus wolfram-alpha

asked Mar 09 '17 at 12:28

shaqed

475
4
8

31

votes

1 answer

Iterated exponent of $i$

WolframAlpha seems to tell me that $e^{e^{e^{e^{e^{e^{e^{e^{e^{e^{e^i}}}}}}}}}} = 1$, see link. Is this just an error or is it for real? Adding one more $e$ to the bottom of the tower gives me the number $e$, so it's specific to the 11 $e$'s I used…

complex-numbers exponentiation wolfram-alpha tetration

asked Aug 23 '12 at 06:41

Dog

313
2
3

29

votes

4 answers

How to type logarithms in Wolfram|Alpha?

Its sometimes hard to type it if logarithm is not natural and base is not 10, especially if base is variable. So anyone know rules how to type?

logarithms wolfram-alpha

asked Apr 02 '11 at 14:27

Templar

1,693
3
22
37

29

votes

7 answers

How does WolframAlpha get an exact answer here? ${}{}$

I had a simple thing to compute with a calculator: $$\sin\left(2\cos^{-1}\left(\frac{15}{17}\right)\right)$$ I got the decimal answer of about $0.83044983$, but when I typed it in WolframAlpha, it also gave an exact answer of $\frac{240}{289}$. How…

trigonometry wolfram-alpha

asked Mar 19 '18 at 21:32

KKZiomek

3,984
20
52

27

votes

3 answers

Why does Wolfram|Alpha make a mistake here?

We want to evaluate $$\lim_{x \to -8}\frac{\sqrt{1-x}-3}{2+\sqrt[3]{x}}.$$The solving process can be written as follows:\begin{align*}\lim_{x \to -8}\frac{\sqrt{1-x}-3}{2+\sqrt[3]{x}}&=\lim_{x \to…

calculus limits wolfram-alpha

asked Oct 08 '18 at 09:28

mengdie1982

13,440
1
13
39

26

votes

4 answers

A limit wrong using Wolfram Alpha

I want to calculate the following limit: $$\displaystyle{\lim_{x \to 0} \cfrac{\displaystyle{\int_1^{x^2+1} \cfrac{e^{-t}}{t} \; dt}}{3x^2}}$$ For that, I use L'Hopital and the Fundamental Theorem of Calculus, obtaining the…

calculus wolfram-alpha

asked Jan 15 '13 at 16:47

dwarandae

1,268
1
15
30

26

votes

4 answers

Why does Wolfram Alpha say that $\infty^\infty$ results in "complex infinity"?

When entered into Wolfram Alpha, $\infty^\infty$ results in complex infinity. Why is $\infty^\infty=\tilde\infty$?

exponentiation infinity wolfram-alpha

asked Dec 31 '16 at 19:06

esote

1,221
1
15
24

24

votes

4 answers

Tell Wolfram Alpha that a variable is a natural number

How can I tell Wolfram Alpha that some variables are natural numbers, when I want to solve a equation? An example of what I want to do: $\binom{n}{k}\cdot p^k \cdot (1-p)^{n-k} = \frac{1}{\sqrt{n\cdot p \cdot (1-p)}}\cdot \frac{1}{\sqrt{2 \cdot…

computer-algebra-systems wolfram-alpha

asked Oct 31 '13 at 16:56

GunnarBerg

333
1
2
4

23

votes

6 answers

Wrong Wolfram|Alpha limit? $ f(x,y) = \frac {xy}{|x|+|y|} $ for $(x,y)\to(0,0)$

I have this function: $$ f(x,y) = \frac {xy}{|x|+|y|} $$ And I want to evaluate it's limit when $$ (x,y) \to (0,0)$$ My guess is that it tends to zero. So, by definition, if: $$ \forall \varepsilon \gt 0, \exists \delta \gt 0 \diagup \\…

calculus limits multivariable-calculus wolfram-alpha

asked Feb 19 '13 at 06:29

Pablo M

333
2
6

21

votes

3 answers

Is WolframAlpha wrong? or am I?

Problem : Determine a limit $$\lim_{x\to\infty}xe^{\sin x}$$ exists or not. If it exists, find a limit. Since $-1\le \sin x \le 1$, I can say that $\displaystyle0<\frac{1}{e}\le e^{\sin x}\le e$. Multiply $x$ both side,…

limits wolfram-alpha

asked Aug 03 '22 at 11:42

bFur4list

2,441
6
15

21

votes

1 answer

Mathematical Explanation of Mathematica Summation ${\sum_{n=1}^{\infty}\frac{(2n-1)!}{(2n+2)!}\zeta(2n)}$

From a mathematical point of view, what phenomena that most likely Mathematica Wolfram encountered when calculating: $$ \sum_{n=1}^{\infty}\frac{(2n-1)!}{(2n+2)!}\zeta(2n)\,=\,\color{red}{\frac{2\log(2\pi)-3}{8}+\frac{\zeta(3)}{8\pi^2}} $$ which is…

sequences-and-series summation riemann-zeta wolfram-alpha

asked Aug 14 '18 at 13:09

Hazem Orabi

3,630
2
14
34

21

votes

2 answers

Is this an incorrect proof of $\cot (x)+\tan(x)=\csc(x)\sec(x)$?

If you input the trig identity: $$\cot (x)+\tan(x)=\csc(x)\sec(x)$$ Into WolframAlpha, it gives the following proof: Expand into basic trigonometric parts: $$\frac{\cos(x)}{\sin(x)} + \frac{\sin(x)}{\cos(x)} \stackrel{?}{=}…

algebra-precalculus trigonometry logic wolfram-alpha

asked Dec 07 '17 at 15:36

Nico A

4,894
4
22
48

18

votes

1 answer

Contour integration and wolfram

I am not sure if this is the right site to ask this question, but here it is: Does Wolfram Alpha do contour integrals? If so how might I access that feature. Also, is there an online manual for Wolfram? Many thanks.

integration wolfram-alpha

asked May 17 '12 at 22:44

harry

227
1
2
4

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