var('mu, s, nu, x, alpha')
assume(mu > 0)
assume(nu > 0)
assume(mu, 'integer')
assume(nu, 'integer')
f(x) = (mu/s)*x**(nu*mu-1)*exp(-alpha*x**mu)
s = integrate(f(x),(x,0,infinity))
print s
var('D, Dn')
f(D) = f(x) / Dn
x = D/Dn
print f(D)
p = integrate(f(D),((D/Dn),0,infinity))
print p
(mu, s, nu, x, alpha)
mu*integrate(x^(mu*nu - 1)*e^(-alpha*x^mu), x, 0, +Infinity)/s
(D, Dn)
mu*x^(mu*nu - 1)*e^(-alpha*x^mu)/(Dn*s)
integrate(mu*x^(mu*nu - 1)*e^(-alpha*x^mu)/(Dn*s), D/Dn, 0, +Infinity)
