No, I never said anything like that. It seems like you have a lot of concepts mixed up. It's also puzzling why you know how to express a trigonometric function's infinite periodicity, but you've failed to show an understanding of the basics.
Anyway...
I would recommend you study the basics of trigonometry again (no offense intended). Or, if you can't be bothered with that, I think we can get a try clear up the fuzzy picture in your head by getting you to stare at the tangent function for a good minute
hominid said:
So you leave out [itex]tanx=-\sqrt{3}[/itex] because of [itex]0\leq x\leq 2\pi[/itex]
For any value [itex]0\leq x\leq 2\pi[/itex] can [itex]tanx<0[/itex] ? If so, which values? More specifically, where would [itex]tanx=-\sqrt{3}[/itex] ?
but wait, you said it has to be [itex]0\leq x\leq \pi[/itex] because it's a tangent function.
I said that the tangent function is periodic every [itex]\pi[/itex].
i.e. if [itex]f(x)=tanx[/itex] then [itex]f(x+\pi n)=f(x)[/itex] for any integer n
Then you're left with [itex]x=\frac{\pi}{3}+{\pi}n[/itex] & [itex]x=\frac{2\pi}{3}+{\pi}n[/itex]
The first is correct - although the restriction on x I placed just for ease is void now, but it's fine. Where did the second result come from?
I'm going to assume you don't know what the ASTC thing is since you ignored it completely. For [itex]0\leq x\leq \pi[/itex] all values of [itex]tanx[/itex] are unique, and remember the tan function is period about [itex]\pi[/itex], so what does this say about your answer to [itex]tanx=\sqrt{3}\Rightarrow x=\pi/3,2\pi/3[/itex] ?
If the first solution to [itex]tanx=\sqrt{3}[/itex] is [itex]x=\pi/3[/itex] and tanx is periodic about [itex]\pi[/itex], then what is the next solution?
Just use the general solution you've provided: [itex]x=\pi/3+\pi n[/itex]