Question

How do you write sin(arctan(a)) as an expression of "a" not involving any trigonometric functions or their inverses?

Answer 1

Let `alpha = arctan(a)`.

Then `-pi/2 < alpha < pi/2`, and `cos alpha > 0`.

So `cos alpha = sqrt(1-sin^2(alpha))`

Hence `sin(alpha) = a/sqrt(1+a^2)`

Explanation:

Having let `alpha = arctan(a)`, we have:

`a = tan(alpha) = sin(alpha)/cos(alpha)`

`=sin(alpha)/sqrt(1-sin^2(alpha))`

Multiply both ends by `sqrt(1-sin^2(alpha))` to get:

`a sqrt(1-sin^2(alpha)) = sin(alpha)`

Square both sides to get:

`sin^2(alpha) = a^2(1-sin^2(alpha))`

`=a^2-a^2 sin^2(alpha)`

Note that this will introduce a spurious solution to be eliminated later.

Add `a^2 sin^2(alpha)` to both ends to get:

`(1+a^2)sin^2(alpha) = a^2`

Divide both sides by `(1+a^2)` to get:

`sin^2(alpha) = a^2/(1+a^2)`

So `sin(alpha) = +-a/sqrt(1+a^2)`

Now remember that `-pi/2 < alpha < pi/2`, so `cos alpha > 0`.

Therefore `sin(alpha)` must have the same sign as `tan(alpha) = a`

So the correct solution is `sin(alpha) = a/sqrt(1+a^2)`