I'm wondering if there is a different command than FullSimplify to tell mathematica to do the computation requested. Here's three variations of a simplification attempt

```
FullSimplify[Re[ (-I + k Rr)] Cos[Ttheta], Element[{k, Rr, Ttheta, t, omega}, Reals]]
FullSimplify[Re[E^(I (omega t - k Rr)) ] Cos[Ttheta], Element[{k, Rr, Ttheta, t, omega}, Reals]]
FullSimplify[Re[E^(I (omega t - k Rr)) (-I + k Rr)] Cos[Ttheta], Element[{k, Rr, Ttheta, t, omega}, Reals]]
```

I get respectively:

```
k Rr Cos[Ttheta]
Cos[k Rr - omega t] Cos[Ttheta]
I (-k Rr + omega t)
Cos[Ttheta] Re[E (-I + k Rr)]
```

Without the exponential, the real parts get evaluated. Without the complex factor multiplying the exponential, the real parts get evaluated. With both multiplied, the input is returned as output?

I tried the // Timings modifier, and this isn't because the expression is too complex (which is good since I can do this one in my head, but this was a subset of a larger test expression that was also failing).

probablyuse mathematica more than us "software types". But thanks for the link, it did clear upwhymathematica is confusing here on SO. – Zabba Mar 12 '11 at 5:57