let f be PartFunc of REAL 2, REAL ; :: thesis: for z0 being Element of REAL 2 st f is_partial_differentiable`2_in z0 holds
SVF2 f,z0 is_continuous_in (proj 2,2) . z0
let z0 be Element of REAL 2; :: thesis: ( f is_partial_differentiable`2_in z0 implies SVF2 f,z0 is_continuous_in (proj 2,2) . z0 )
assume A0: f is_partial_differentiable`2_in z0 ; :: thesis: SVF2 f,z0 is_continuous_in (proj 2,2) . z0
consider x0, y0 being Real such that
A1: ( z0 = <*x0,y0*> & SVF2 f,z0 is_differentiable_in y0 ) by A0, Def7;
SVF2 f,z0 is_continuous_in y0 by A1, FDIFF_1:32;
hence SVF2 f,z0 is_continuous_in (proj 2,2) . z0 by A1, Th2; :: thesis: verum