Problem with using symbolic integration
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This is my expression
l = 0.0357;
u = 0.9;
p = 5.1;
q =3;
f= ((x-l)^(p-1)*(u-x)^(q-1)/(beta(p,q)*(u-l)^(p+q-1)));
F = (int(f,x,[l x]))
For these values it gives me a solution , where as when I change the value of say q=3.1 , it doesnt solve it . I get this back with some big integers
int((2305843009213693952*(9/10 - x)^(21/10)*(x - 357/10000)^(41/10))/6549555978944313, x, 357/10000, x)
Can anyone help me find the problem?
1 Comment
Yasho Bharat Boggarapu
on 6 May 2020
Accepted Answer
David Goodmanson
on 6 May 2020
1 vote
Hello Yasho,
For any reasonable q, integrating from l to u gives F = 1 by definition of the beta function. When q is an integer, integration from l to an arbitrary x0 gives an answer because symbolic can expand out (u-x)^(q-1) as a polynomial. So for q = 3 you can see a quadratic as part of the answer.
When both p and q are nonintegers and an arbitrary x0 as the upper limit, you have an incomplete beta function which has to be done numerically.
5 Comments
Yasho Bharat Boggarapu
on 6 May 2020
David Goodmanson
on 6 May 2020
Edited: David Goodmanson
on 6 May 2020
Hi Yasho, for an arbitrary upper limit x0 it can do the integration if either p or q is an integer. But if neither p nor q are integers you are not going to get a result. Except numerically. And under the circumstances, there's nothing wrong with that.
Yasho Bharat Boggarapu
on 6 May 2020
Yasho Bharat Boggarapu
on 6 May 2020
David Goodmanson
on 6 May 2020
it allows you to always have an answer for the denominator of the integrand which is good, but it does not affect the conclusion in the previous comment I wrote.
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