Backslide introduced in v10 and persisting through v10.3.1.
In the course of considering question 102922, I encountered erratic results from a particular integration. It is illustrated as follows. With a new session of Mathematica
$Version
(* 10.3.0 for Microsoft Windows (64-bit) (October 9, 2015) *)
run
Do[ans = Integrate[k^n SphericalBesselJ[l, R*k], {k, 0, ∞},
Assumptions -> {l > 0, R > 0, n ∈ Integers}]; Print[ans], {i, 6}]
Integate
returns unevaluated the first time called. Thereafter, it returns
(* ConditionalExpression[(2^(-1 + n)*Sqrt[Pi]*R^(-1 - n)*Gamma[(1 + l + n)/2])/
Gamma[(2 + l - n)/2], n < 1 && l + n > -1] *)
as expected. A variant on this strange behavior, again in a new session of Mathematica, is
Integrate[k^n SphericalBesselJ[l, R*k], {k, 0, ∞}, Assumptions -> {l > 0, R > 0}]
(* returns expected result *)
Integrate[k^n SphericalBesselJ[l, R*k], {k, 0, ∞}, Assumptions -> {l > 0, R > 0,
n ∈ Integers}]
(* returns unevaluated *)
Integrate[k^n SphericalBesselJ[l, R*k], {k, 0, ∞}, Assumptions -> {l > 0, R > 0,
n ∈ Integers}]
(* returns unevaluated *)
Integrate[k^n SphericalBesselJ[l, R*k], {k, 0, ∞}, Assumptions -> {l > 0, R > 0,
n ∈ Integers}]
(* returns expected result, as at the beginning of the question*)
There are many possible combinations of Assumptions
for this calculation, and most behave similarly, at first returning unevaluated and later returning evaluated. Moreover, with Assumptions
cases a, b, and c, Integrate
run with the sets in that order typically returns unevaluated in the first two cases, and evaluated in the third, and shuffling the three cases likewise typically also returns the first two cases (for example, b and c) unevaluated and the third (in the same example, a) evaluated.
I know of two work-arounds. One, due to Bob Hanlon, is to use GenerateConditions -> False
which gives the evaluated result but at the cost of no conditions. The second is illustrated at the beginning of this question. It, too, seems unsatisfactory. So, can this behavior be explained, and what is a better work-around? Thanks.