SimplifyDeltaFunction[exp, x]
simplifies
f[x]*DeltaFunction[1-x]
to
Limit[f[x],x->1] DeltaFunction[1-x]
and applies a list
of transformation rules for
DeltaFunctionPrime[1-x]*x^(OPEm-1)*f[x]
where
x^(OPEm-1)
is suppressed in exp
.
Overview, DeltaFunction, DeltaFunctionPrime.
g[x] DeltaFunction[1 - x]
[ %, x] SimplifyDeltaFunction
g(x) \delta (1-x)
\delta (1-x) \underset{x\to 1}{\text{lim}}g(x)
g[x] DeltaFunctionPrime[1 - x]
[ %, x]
SimplifyDeltaFunction
x Log[x] DeltaFunctionPrime[1 - x]
[ %, x] SimplifyDeltaFunction
g(x) \delta '(1-x)
\delta (1-x) \underset{x\to 1}{\text{lim}}g'(x)+\delta '(1-x) \underset{x\to 1}{\text{lim}}g(x)
x \log (x) \delta '(1-x)
\delta (1-x)
PolyLog[2, 1 - x] DeltaFunctionPrime[1 - x]
[ %, x] SimplifyDeltaFunction
\text{Li}_2(1-x) \delta '(1-x)
-\delta (1-x)
Log[x] PolyLog[2, 1 - x] DeltaFunctionPrime[1 - x]
[ %, x] SimplifyDeltaFunction
\text{Li}_2(1-x) \log (x) \delta '(1-x)
0
PolyLog[3, 1 - x] DeltaFunctionPrime[1 - x]
[ %, x] SimplifyDeltaFunction
\text{Li}_3(1-x) \delta '(1-x)
-\delta (1-x)