Let $f=f(t),g=g(t),h=h(t) \in k[t]$, $k$ is a field of characteristic zero.
Denote $\deg(f)=a$, $\deg(g)=b$, $\deg(h)=c$. Assume that $a \geq 2, b \geq 2, c \geq 2$.

Assume that $k[f,g] \neq k[t]$, $k[f,h]\neq k[t]$ and $k[g,h]\neq k[t]$,
but $k[f,g,h]=k[t]$.

> What can be said about $a$, $b$ and $c$?

For example, $f=t^2+t$, $g=t^3$, $h=t^6+t^2$; here $a=2$,$b=3$,$c=6$. (How to show that $k[f,h]\neq k[t]$?).

Of course, the inspiration for this question is Abhyankar-Moh-Suzuki theorem.
See also [this question][1].

Any comments are welcome!


  [1]: https://mathoverflow.net/questions/301504/l%C3%BCroth-theorem-for-k-subset-kf-g-subseteq-kx/302648#302648