In some contexts (for example, in the study of spherical harmonics), the connected components of the complement of the zero set of a polynomial are called nodal domains.
The maximum number of nodal domains in the real projective plane of a polynomial of degree $d$ (i.e. a homogeneous polynomial in $\mathbb{R}^3$) is bounded above by $d(d-1)+2.$ A nice exposition of this result can be found Leydold's paper On the number of nodal domains of spherical harmonics.
A related result is Harnack's curve theorem. It says that the number of connected components of the zero set of a polynomial in the real projective plane is bounded by $(d-1)(d-2)/2+1$.