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I have this question in a exam in which you have to choose only one of the possible answers: What would be correct?

Let be $ f,g : \mathbb{R} \rightarrow \mathbb{R} $ two derivable functions such that f'(x)=g(x),g'(x)=f(x),f(0)=1,g(0)=0 . And let be the function $F(x)=f^2(x)+g^2(x)$, then:

a) $F(x)=1-\sin(x)$.

b) $F$ is the constant function with value 1.

c) None of the other two answers.

Frankly I don't even know where to start and the possible relationship between the conditions and possible responses.

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    It is a previous exam for public use to train students for next one.2012-01-20

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The first two conditions give f''=f. The initial conditions then give $f(x)=\cosh x,\quad\text{and}\quad g(x)=\sinh x,$ where $\cosh $ is the hyperbolic cosine function $\cosh x={e^x+e^{-x}\over 2}$ and $\sinh$ is the hyperbolic sine function $\sinh x={e^x-e^{-x}\over 2}$.

One has the identity $\cosh^2 x+\sinh^2 x=\cosh(2x) $.


Per Gerry's comment:

If the first condition were f'(x)=-g(x), then you could argue in a manner similar to the above; or note that F'(x)=2f(x)f'(x)+2g(x)g'(x)=-2f(x)g(x)+2g(x)f(x)=0. Thus $F$ is a constant function. From the initial conditions, $F$ must be identically 1.

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    thanks, i didnt think in the hyperbolic function2012-01-21