let n be Element of NAT ; :: thesis: for m being Nat of n
for RAS being ReperAlgebra of n
for W being ATLAS of RAS st ( for x being Tuple of (n + 1),W
for v being Vector of W holds Phi (x +* m,((x . m) + v)) = (Phi x) + (Phi (x +* m,v)) ) holds
RAS is_semi_additive_in m
let m be Nat of n; :: thesis: for RAS being ReperAlgebra of n
for W being ATLAS of RAS st ( for x being Tuple of (n + 1),W
for v being Vector of W holds Phi (x +* m,((x . m) + v)) = (Phi x) + (Phi (x +* m,v)) ) holds
RAS is_semi_additive_in m
let RAS be ReperAlgebra of n; :: thesis: for W being ATLAS of RAS st ( for x being Tuple of (n + 1),W
for v being Vector of W holds Phi (x +* m,((x . m) + v)) = (Phi x) + (Phi (x +* m,v)) ) holds
RAS is_semi_additive_in m
let W be ATLAS of RAS; :: thesis: ( ( for x being Tuple of (n + 1),W
for v being Vector of W holds Phi (x +* m,((x . m) + v)) = (Phi x) + (Phi (x +* m,v)) ) implies RAS is_semi_additive_in m )
assume A1: for x being Tuple of (n + 1),W
for v being Vector of W holds Phi (x +* m,((x . m) + v)) = (Phi x) + (Phi (x +* m,v)) ; :: thesis: RAS is_semi_additive_in m
for x being Tuple of (n + 1),W holds Phi (x +* m,(Double (x . m))) = Double (Phi x) hence RAS is_semi_additive_in m by Th31; :: thesis: verum