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why $2pi= c$ and $c=pi ?$

Mathematics Asked on December 23, 2021

Let $T:Vrightarrow V$ be the linear transformation defined as follows: If $fin V, g=T(f)$means that $$g(x)=int_{-pi}^{pi}{1+cos(x-t)}f(t)~dt$$
Find all real $c neq 0$ and all nonzero $f$ in $V$ such that $T(f)=cf$.

My attempt : I got the answer but i didn’t understand the answer given below marked in red box

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My thinking : $$f(x)=c_1+c_2cos x+c_3sin x $$

$$T(f)(x)= cf(x)$$
$$
T(f)(x)= c c_1 + c c_2 cos x + c c_3 sin x
$$

I m not getting how $pi$ come in the given answer https://math.stackexchange.com/a/3290699/557708 ?

why $2pi= c$ and $c=pi ?$

One Answer

Now that you know the general form of $f(x) = c_1 + c_2cos x + c_3sin x$, you can find the coefficients in terms of the integral

$$int_{-pi}^{pi}f(t)dt = 2pi c_1$$ $$int_{-pi}^{pi}cos t(c_1 + c_2cos t + c_3sin t)dt = c_2int_{-pi}^{pi}cos^2 tdt = pi c_2$$ $$int_{-pi}^{pi}sin t(c_1 + c_2cos t + c_3sin t)dt = c_3int_{-pi}^{pi}sin^2 tdt = pi c_3$$

So we can write the following

$$T(c_1 + c_2cos x + c_3sin x) = 2pi c_1 + pi c_2 cos x + pi c_3 sin x = cc_1 + cc_2cos x + cc_3sin x$$

Answered by Dhanvi Sreenivasan on December 23, 2021

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