let X be non empty set ; :: thesis: for f being Functional_Sequence of X,REAL
for x being Element of X st x in dom (f . 0 ) holds
(superior_realsequence f) # x = superior_realsequence (R_EAL (f # x))
let f be Functional_Sequence of X,REAL ; :: thesis: for x being Element of X st x in dom (f . 0 ) holds
(superior_realsequence f) # x = superior_realsequence (R_EAL (f # x))
let x be Element of X; :: thesis: ( x in dom (f . 0 ) implies (superior_realsequence f) # x = superior_realsequence (R_EAL (f # x)) )
set F = superior_realsequence f;
assume A1: x in dom (f . 0 ) ; :: thesis: (superior_realsequence f) # x = superior_realsequence (R_EAL (f # x))
hence (superior_realsequence f) # x = superior_realsequence (R_EAL (f # x)) by FUNCT_2:113; :: thesis: verum