Hmmm. Actually, Given...Find gives an interesting answer. What is "ImageSet"?

Thanks for your time and help, Richard. And I have a query :

Best Regards.

As in some previous posts you don't account for the ambiguity of the atan() "function" (its just a relation, not a function). Likewise the ln(complex) is not unique!

atan(tan(x)) = x is true only if you limit x to the range -90° to +90° and Mathcad is aware of this:

Richard Jackson wrote: ... What is "ImageSet"? ...

Maybe this: http://sst.unisim.edu.sg/apps/maths/Interactive%20Maths/Dynamic/Imagex%5E2.htm

Image Set of y = x^2 The image set of the function f(x) = x^2 is shown when its domain is the closed interval [a, b] (you can drag and change the lower and upper domain limits a and b). Note how the image set is given by [f(min), f(max)] (for a < b within the applet) with respect to the domain [a, b]. You can also click to animate the lower domain limit a to move towards the upper domain limit b. Note how the corresponding image set changes.

Richard Jackson wrote: Hmmm. Actually, Given...Find gives an interesting answer. What is "ImageSet"?

http://www.mathworks.de/de/help/symbolic/mupad_ref/dom-imageset.html

You get a similar result (but w/o ImageSet) if you use solve with the modifier "fully"

I see. Thanks.

You probably expect X=i, but again you have to consider the ambiguity of the used function(s):

Different results for X depending on the value of x!

You may either evaluate the integral numerically or symbolically with the modifier "float".

Your integral can be written as

with k being any integer,

So again you are running into ambiguity. You get different result for different values of k and for some values of k the integral does not converge at all (k=4, k=9, according to Mathcad). So ir seems you can't expect a closed solution.

Many thanks for your time and help, Werner.

Regards.

You experience the effect of numerical inaccuracy combined with ambiguity of "functions" (again!). E.g. Mathcad choses pi for the atan(..) for some values of x, giving the total result -2pi. Mathcads numerics add the very small imaginary part (which should be zero) and so that point isn't plotted. This happens quite often and so you see the holes in your graph. Reformulating the function definition as I had shown in another thread with the f1b() may help, but mustn't necessary. If you want to be on the safe side, define f2(x):=0. 😉

Can you tell us what you want to achieve with all this? You seem to know that used function are equivalent and the difference should simplify to zero - at least given some implicit assumptions about the domain of the involved variables and functions which Mathcad doesn't make. So whats the goal of all these attempts?

I am not sure why MC can write atan() as ln() but not the other way round. Both functions show ambiguity if applied to complex arguments (so strictly spoken they can't be called function therefore). Maybe is has to do with the fact that ln() is unique in the domain real and so Mathcad refuses to rewrite it with an ambiguous atan(). Maybe is just one of the many disabilities of MCs symbolics. Maybe it even can be done using the right combination and order of symbolic assumptons and keywords, Maybe ....

Many thanks for the following, Werner :

Werner Exinger wrote: You experience the effect of numerical inaccuracy combined with ambiguity of "functions" (again!). E.g. Mathcad choses pi for the atan(..) for some values of x, giving the total result -2pi. Mathcads numerics add the very small imaginary part (which should be zero) and so that point isn't plotted. This happens quite often and so you see the holes in your graph. Reformulating the function definition as I had shown in another thread with the f1b() may help, ... I am not sure why MC can write atan() as ln() but not the other way round. Both functions show ambiguity if applied to complex arguments (so strictly spoken they can't be called function therefore). Maybe is has to do with the fact that ln() is unique in the domain real and so Mathcad refuses to rewrite it with an ambiguous atan(). Maybe is just one of the many disabilities of MCs symbolics. Maybe it even can be done using the right combination and order of symbolic assumptons and keywords, Maybe ....

Best Regards.

I have Mathad 14. And :

The screen has showed :

Regards.

The screenshots were made on machine way more feeble than yours, but using Mathcad 15 M030.

You just have to wait for the last region to evaluate - it takes quite some time, a minute or two if the region is evaluated the first time.