[CAS] sum

12172014, 03:04 AM
Post: #1




[CAS] sum
approx(Σ(sin(n)/n,n,1,inf)) => 1.07079632679 ok
approx(Σ(sin(n)/n,n,1,1000)) => undef ? approx(Σ(sin(n)/n,n,1,100)) => 1.0604289384 ok 

12172014, 03:20 AM
Post: #2




RE: [CAS] sum
You really want to calculate Σ(sin(n)/n,n,1,1000) exactly, and then approximate? Why?
Direct in CAS: Σ(sin(n)/n,n,1,1000.) returns 1.07069 . . . 

12172014, 03:35 AM
(This post was last modified: 12172014 03:50 AM by compsystems.)
Post: #3




RE: [CAS] sum
with [CAS & EXACT MODE ON]
Σ(sin(n)/n,n,1,1000) => (1/7128865274665093053166 ................... as it is difficult to visualize the answer, I convert to approximate APPROX(ANS) => UNDEF Now [CAS & EXACT MODE OFF] Σ(sin(n)/n,n,1,1000) => 1.07069415432 ok 

12172014, 03:41 AM
Post: #4




RE: [CAS] sum
Yes, I have the same settings (exact on), but I never get the answer 1/7128865.... The calc hangs. (But maybe I'm not patient enough to wait).
I see what you are saying, though . . . if you get an exact answer, you should be able to get the approximation. 

12172014, 03:43 AM
Post: #5




RE: [CAS] sum
(12172014 03:41 AM)Helge Gabert Wrote: Yes, I have the same settings (exact on), but I never get the answer 1/7128865.... The calc hangs. (But maybe I'm not patient enough to wait). Sometimes it hangs and sometimes it doesn't. It does take a long time, but I've had it hang (to where [On][Symb] did nothing) and using the reset hole was the only way to get the calc back into working order. Graph 3D  QPI  SolveSys 

12172014, 08:11 AM
(This post was last modified: 12172014 08:21 AM by parisse.)
Post: #6




RE: [CAS] sum
If you compute the sum in exact mode, the CAS does not recognize something to get a closed simple form, and the sum is rewritten with very large integers. Conversion to float requires a multiprecision floats library, that is not available on the Prime, with Xcas and MPFR inside, you get an approximation.


12172014, 11:21 AM
Post: #7




RE: [CAS] sum
Hello,
As was already pointed out, you should do ∑(approx(sin(n)/n,...) instead of approx(∑(sin(n)/n,...)) to avoid forcing the CAS to build really long symbolic terms. But what makes me wonder is why the "undef" result. For example: sum(1/k,k=1..n) returns "undef" if there aren't any assumptions made about n ("euler_gamma+Psi(n+1)" if assume(n>0)). On the other side: sum(1/k,k=1..n) returns just the term I've entered (regardless of assumptions about n). Despite both sums should return the same, I'm fine with the latter since it tells me the CAS wasn't able to find a closed form solution. But the first result "undef" seems wrong to me (I'd expect it for such cases like 0/0 etc.) and hard to track if the sum is part of a bigger expression. (I've set automatic simplification to "None") 

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