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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).

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Looks like this would be better answered on math.stackexchange.com –  Zabba Mar 12 '11 at 4:19
1  
@Zabba and @Closers It is a valid Mathematica question. Please check meta.stackoverflow.com/questions/81152/… as you are not the only one confused –  belisarius Mar 12 '11 at 5:46
    
@belisarius, my premise was that people over at the math site probably use mathematica more than us "software types". But thanks for the link, it did clear up why mathematica is confusing here on SO. –  Zabba Mar 12 '11 at 5:57
    
@Zabba, definitely an interesting question, however 9 tenths of the questions asked here are programming questions, and the (currently 18) questions found on math.stackechange.com/questions/tagged/mathematica are much more mathematics oriented than the ones found here. –  rcollyer Mar 12 '11 at 16:30

3 Answers 3

up vote 3 down vote accepted

ComplexExpand, perhaps?

ComplexExpand[Re[E^(I (omega t - k Rr)) (-I + k Rr)] Cos[Ttheta]]
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Since your variables are declared Reals have you tried ComplexExpand?

To redeem my slow posting here is another approach: tell Mathematica that you do not want Complex in the result via ComplexityFunction

FullSimplify[Re[E^(I (omega t - k Rr)) (-I + k Rr)] Cos[Ttheta], 
 Element[{k, Rr, Ttheta, t, omega}, Reals], 
 ComplexityFunction -> (1 - Boole@FreeQ[#, Complex] &)]
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+1 This is a convoluted but very interesting use of ComplexityFunction –  belisarius Mar 12 '11 at 5:48
    
@belisarius I suppose that anyone regularly wanting to get very specific results from Simplify should build a library of these. I tend to be happy with one or two simple ones like StringLength[... but one can do much more with ComplexityFunction and TransformationFunctions. –  Mr.Wizard Mar 12 '11 at 6:14
    
(+1) Maybe you should post your favourite ComplexityFunctions at this SO question. –  Simon Mar 13 '11 at 12:59

This Is a problem I've been having with Mathematica for a long time, combining suggestions from here I've created a new function that can be used instead of Simplify[] when dealing with complex arguments. Works for me so far, any further suggestions?

CSimplify[in_] := FullSimplify[in // ComplexExpand, ComplexityFunction -> (1 - Boole@FreeQ[#, Complex] &)]

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