Question

How do I find the range of arcsin when the range IS affected by translation? This problem has 3x=arcsin(1/2f(x)) but I'm more concerned with the general rules.

Answer 1

See details..

Explanation:

With `y= f ( x )`,,

`3x = arcsin ( y/2 )`, restrained to`in [ - pi/2, pi/2 ]`

`rArr x in 1/3 [ - pi/2, pi/2 ] = [ - pi/6, pi/6 ]`.

( If c is added to x, then

`3x = arcsin ( y/2 )` + 3c , restrained to`in [ - pi/2+ 3c, pi/2 + 3c ]`

So, `x in 1/3 [ - pi/2, pi/2 ] = [ - pi/6, pi/6 ]`.

Inversely,

`y = 2 sin ( 3x )`, in [ - 1, 1 ]#, with no restraint on x.

If you like to do inversion to this inversion, what you get is the

piecewise wholesome inversion ( here I insist on the use of

my piecewise wholesome inverse operator `(( sin )^ ( - 1 ))`.

`x = 1/3 ( sin )^ ( - 1 )( y/2 ) = kpi + ( - 1 ) ^k arcsin ( y/2 )`,

`x in [ kpi - pi/6, kpi + pi/6 ], k = 0, +-1, +-2, +-3, ...`.

For the graph of this wholesome inverse, use `y = 2 sin 3x`, that

includes the bit, for the given equation.

See graphical depiction, for both.
graph{(x - 1/3 arcsin (y/2 ))(x-pi/6)(x+pi/6)=0}

The sine wave is in-between `y = +-2`, with x unbounded.
graph{(y - 2 sin (3x))(y-2)(y+2)=0}

So, there is an immediate need to be serious about caring my

piecewise wholesome operator that is relevant to all time-oriented

x giving natural progressive oscillations, and likewise, in rotations

and revolutions, in this Universe. I had discussed this matter many

a time, in my answers,