I am trying to solve this problem for integration however i am facing not convergence issue. Please help me out.
Thanks
Hi,
There are unit inconsistencies in the equations.
Thanks a lot, do you mean that dimensionality is not same, although both are energies in the numerator and denominator. So i think same or something is wrong.
Thanks
Hi,
T is not defined in the worksheet. Change the variable temp to T?
But it still does not converge.
Cheers Terry
Thanks, Terry, as you said it does not still converge.
thanks
Hi,
A term gives a larger than capacity number depending on expected value of Ek.
Thanks, Terry, do you mean we need to define Ek accordingly so that it would converge or what?
Thanks
Hi,
I mean that from the limits of integration for Ek of 0 to 1000 the term gives a number too large for Prime so integration fails
Some Remarks:
Your definition of E.k seems to be wrong as the result possibly should be Energy
But as you never used it it does not affect the integral
For the integral to work you must also apply correct units for the integration limits!. E.g. Joule for the inner one and Hz for the outer one.
If you then set T:=temp (T was interpreted as unit Tesla as it was not defined) and a MUCH lower upper limit for E.k (I used 10^-19 J instead of your 1000) you get a result
I was even able to "push up" the upper limit to as much as 1.137*10^-19 J 😉
Terry had already shown that large values for E.k exceed Primes size limit for numbers (the usual IEEE limit).