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I am very new to function approximations, and I am interested in approximating arcsin with a function $f$, s.t. $f(x) \geq \arcsin(x)$ for all $x$.

Taylor series would give me a function which is always at most $\arcsin(x)$, but I am wondering if there are maybe some trigonometric identities with which I can obtain a desired approximation.

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For $00$ [I haven't checked this].

EDIT: I just found some terms of the taylor series of $\arcsin(\tan(x))$. It starts out $$x+(1/2)x^3+(3/8)x^5+(83/240)x^7+...$$ This will be greater than $\arcsin(x)$ if we use all the terms; if one wants the best upper bound from this, clearly one should not keep adding positive terms, but stop as soon as the series "beats" the series for $\arcsin(x)$. I haven't checked, but it looks like all we get from the taylor series for $\arcsin(\tan(x))$ is the simple statement $$\arcsin(x)

I guess what one would really want is a sequence of upper bounds that converged down to $\arcsin x$ for positive $x$. I don't know how to construct that.

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    I'm still wondering how to construct polynomials $p_n(x)$ which as $n \to \infty$ approach $\arcsin x$ from above (even say for only $x>0$), so that each $p_n(x) \ge \arcsin x$.2012-11-14