# mathematica, Simplify trig function

if say i have a function given :

``````               singlepattern = Cosh[theta] + Cosh[3theta]
``````

How do i get a rational expression in terms of x of the function if i want to substitute Cosh[theta] by

``````               "Cosh[theta] = ( x )/ 2 "
``````

expression?

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Hi i'm trying to get a simplified rational expression for singlepattern in terms of x –  Sunday May 5 '11 at 12:03
Aren't rational expressions ratio's of polynomials? I don't directly see the relationship with your Cosh functions. –  Sjoerd C. de Vries May 5 '11 at 12:38
Well when you substitute the x/2 expression for cosh(theta) after doin simplepattern // ExpandTrig ..... u will find that it will now have expressions in terms of x –  Sunday May 5 '11 at 13:04
You can also use a direct substitution of `theta->ArcCosh[x/2]`, coupled with `TrigExpand`. Like so: `Cosh[theta] + Cosh[3theta] /.theta->ArcCosh[x/2] // TrigExpand // Together`. This gives `(x^3-2*x)/2`. This, of course, is similar in spirit to Sjoerd's answer below. –  Sasha May 5 '11 at 15:38

I retagged the question as a homework. You should look into `ChebyshevT` polynomials. It has the property that `ChebyshevT[3, Cos[th] ]==Cos[3*th]`. So for your problem the answer is

``````In[236]:= x/2 + ChebyshevT[3, x/2]

Out[236]= -x + x^3/2
``````

Alternatively, you could use `TrigExpand`:

``````In[237]:= Cos[th] + Cos[3*th] // TrigExpand

Out[237]= Cos[th] + Cos[th]^3 - 3 Cos[th] Sin[th]^2

In[238]:= % /. Sin[th]^2 -> 1 - Cos[th]^2 // Expand

Out[238]= -2 Cos[th] + 4 Cos[th]^3

In[239]:= % /. Cos[th] -> x/2

Out[239]= -x + x^3/2
``````

EDIT The reason the above has to do with the explicit question, is that `Cosh[theta] == Cos[I*u]` for some `u`. And since `u` or `theta` are formal, results will hold true.

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the function is `Cosh`, not `Cos`. –  user564376 May 5 '11 at 14:30
But this is the same, since `Cosh[u] == Cos[I*u]`, so it does not change the result of these calculations. Maybe I should edit my post to state that explicitly. –  Sasha May 5 '11 at 15:01
Sorry, you're right. It is in fact the same as Sjoerd's answer. I didn't see the `x/2` outside the parantheses in his answer and thought that you both had differing answers. my mistake and +1 to you :) –  user564376 May 5 '11 at 15:06
Thanks Sasha !!! –  Sunday May 8 '11 at 3:25

Use `Solve` to solve for `theta`, then substitute, `Expand`, and `Simplify`:

``````In[16]:= TrigExpand[Cosh[3 theta] + Cosh[theta]] /.
Solve[Cosh[theta] == (x)/2, theta] // FullSimplify

During evaluation of In[16]:= Solve::ifun: Inverse functions are being used by Solve,
so some solutions may not be found; use Reduce for complete solution information. >>

Out[16]= {1/2 x (-2 + x^2), 1/2 x (-2 + x^2)}
``````
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thanks Sjoerd !!! –  Sunday May 8 '11 at 3:25

This might interest you:

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that's the first things i did ...thanks –  Sunday May 5 '11 at 11:42
!!!............. –  Sunday May 8 '11 at 3:24