let f be PartFunc of (REAL 2),REAL; :: thesis: for z being Element of REAL 2 holds
( ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 ) iff f is_partial_differentiable_in z,2 )
let z be Element of REAL 2; :: thesis: ( ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 ) iff f is_partial_differentiable_in z,2 )
consider x0, y0 being Element of REAL such that
A1: z = <*x0,y0*> by FINSEQ_2:100;
thus ( ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 ) implies f is_partial_differentiable_in z,2 ) by Th2; :: thesis: ( f is_partial_differentiable_in z,2 implies ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 ) )
assume A2: f is_partial_differentiable_in z,2 ; :: thesis: ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 )
(proj (2,2)) . z = y0 by A1, Th2;
then SVF1 (2,f,z) is_differentiable_in y0 by A2;
hence ex x0, y0 being Real st
( z = <*x0,y0*> & SVF1 (2,f,z) is_differentiable_in y0 ) by A1; :: thesis: verum