let m be non empty Element of NAT ; :: thesis: for i being Element of NAT
for X being Subset of (REAL m)
for f, g being PartFunc of (REAL m),REAL st X is open & 1 <= i & i <= m & f is_partial_differentiable_on X,i & g is_partial_differentiable_on X,i holds
( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) )
let i be Element of NAT ; :: thesis: for X being Subset of (REAL m)
for f, g being PartFunc of (REAL m),REAL st X is open & 1 <= i & i <= m & f is_partial_differentiable_on X,i & g is_partial_differentiable_on X,i holds
( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) )
let X be Subset of (REAL m); :: thesis: for f, g being PartFunc of (REAL m),REAL st X is open & 1 <= i & i <= m & f is_partial_differentiable_on X,i & g is_partial_differentiable_on X,i holds
( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) )
let f, g be PartFunc of (REAL m),REAL; :: thesis: ( X is open & 1 <= i & i <= m & f is_partial_differentiable_on X,i & g is_partial_differentiable_on X,i implies ( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) ) )
assume AS: ( X is open & 1 <= i & i <= m & f is_partial_differentiable_on X,i & g is_partial_differentiable_on X,i ) ; :: thesis: ( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) )
P1: ( X c= dom f & X c= dom g ) by AS, PDIFF734;
Q1: ( dom (f `partial| (X,i)) = X & dom (g `partial| (X,i)) = X ) by DefPDX, AS;
dom (f - g) = (dom f) /\ (dom g) by VALUED_1:12;
then P3: X c= dom (f - g) by P1, XBOOLE_1:19;
then P7: for x being Element of REAL m st x in X holds
f - g is_partial_differentiable_in x,i ;
then P8: f - g is_partial_differentiable_on X,i by P3, PDIFF734, AS;
then B1: dom ((f - g) `partial| (X,i)) = X by DefPDX;
B2: dom ((f `partial| (X,i)) - (g `partial| (X,i))) = (dom (f `partial| (X,i))) /\ (dom (g `partial| (X,i))) by VALUED_1:12;
hence ( f - g is_partial_differentiable_on X,i & (f - g) `partial| (X,i) = (f `partial| (X,i)) - (g `partial| (X,i)) & ( for x being Element of REAL m st x in X holds
((f - g) `partial| (X,i)) /. x = (partdiff (f,x,i)) - (partdiff (g,x,i)) ) ) by B1, B2, Q1, P7, P10, P3, PDIFF734, AS, PARTFUN1:5; :: thesis: verum