reconsider K0 = the carrier of I(01) as Subset of I[01] by BORSUK_1:35;
let n be Element of NAT ; :: thesis: for D being non empty Subset of (TOP-REAL n)
for p1, p2 being Point of (TOP-REAL n) st D is_an_arc_of p1,p2 holds
I(01) ,(TOP-REAL n) | (D \ {p1,p2}) are_homeomorphic
let D be non empty Subset of (TOP-REAL n); :: thesis: for p1, p2 being Point of (TOP-REAL n) st D is_an_arc_of p1,p2 holds
I(01) ,(TOP-REAL n) | (D \ {p1,p2}) are_homeomorphic
let p1, p2 be Point of (TOP-REAL n); :: thesis: ( D is_an_arc_of p1,p2 implies I(01) ,(TOP-REAL n) | (D \ {p1,p2}) are_homeomorphic )
assume A1: D is_an_arc_of p1,p2 ; :: thesis: I(01) ,(TOP-REAL n) | (D \ {p1,p2}) are_homeomorphic
then consider f being Function of I[01] ,((TOP-REAL n) | D) such that
A2: f is being_homeomorphism and
A3: f . 0 = p1 and
A4: f . 1 = p2 by TOPREAL1:def 2;
A5: rng f = [#] ((TOP-REAL n) | D) by A2, TOPS_2:def 5
.= D by PRE_TOPC:29 ;
A6: dom f = the carrier of I[01] by FUNCT_2:def 1;
then A7: 0 in dom f by BORSUK_1:86;
A8: 1 in dom f by A6, BORSUK_1:86;
A9: ( f is continuous & f is one-to-one ) by A2, TOPS_2:def 5;
then A10: f .: the carrier of I(01) = (f .: the carrier of I[01] ) \ (f .: {0 ,1}) by Th58, FUNCT_1:123
.= D \ (f .: {0 ,1}) by A6, A5, RELAT_1:146
.= D \ {p1,p2} by A3, A4, A7, A8, FUNCT_1:118 ;
A11: D \ {p1,p2} c= D by XBOOLE_1:36;
then reconsider D0 = D \ {p1,p2} as Subset of ((TOP-REAL n) | D) by PRE_TOPC:29;
reconsider D1 = D \ {p1,p2} as non empty Subset of (TOP-REAL n) by A1, JORDAN6:56;
A12: (TOP-REAL n) | D1 = ((TOP-REAL n) | D) | D0 by GOBOARD9:4;
set g = (f " ) | D1;
A13: D1 = the carrier of ((TOP-REAL n) | D1) by PRE_TOPC:29;
D1 c= the carrier of ((TOP-REAL n) | D) by A11, PRE_TOPC:29;
then reconsider ff = (f " ) | D1 as Function of ((TOP-REAL n) | D1),I[01] by A13, FUNCT_2:38;
f " is continuous by A2, TOPS_2:def 5;
then A14: ff is continuous by A12, TOPMETR:10;
set fD = f | the carrier of I(01) ;
A15: I(01) = I[01] | K0 by PRE_TOPC:29, TSEP_1:5;
then reconsider fD1 = f | the carrier of I(01) as Function of (I[01] | K0),((TOP-REAL n) | D) by FUNCT_2:38;
A16: dom (f | the carrier of I(01) ) = the carrier of I(01) by A6, BORSUK_1:35, RELAT_1:91;
rng f = [#] ((TOP-REAL n) | D) by A2, TOPS_2:def 5;
then A17: f " = f " by A9, TOPS_2:def 4;
A18: rng (f | the carrier of I(01) ) = f .: the carrier of I(01) by RELAT_1:148;
then A19: rng (f | the carrier of I(01) ) = the carrier of ((TOP-REAL n) | (D \ {p1,p2})) by A10, PRE_TOPC:29;
then reconsider fD = f | the carrier of I(01) as Function of I(01) ,((TOP-REAL n) | (D \ {p1,p2})) by A16, FUNCT_2:3;
A20: dom fD = [#] I(01) by A6, BORSUK_1:35, RELAT_1:91;
f is one-to-one by A2, TOPS_2:def 5;
then A21: fD is one-to-one by FUNCT_1:84;
then fD " = fD " by A19, TOPS_2:def 4;
then A22: fD " is continuous by A9, A10, A15, A14, A17, RFUNCT_2:40, TOPMETR:9;
fD1 is continuous by A9, TOPMETR:10;
then A23: fD is continuous by A15, A12, TOPMETR:9;
rng fD = [#] ((TOP-REAL n) | (D \ {p1,p2})) by A10, A18, PRE_TOPC:29;
then fD is being_homeomorphism by A20, A21, A23, A22, TOPS_2:def 5;
hence I(01) ,(TOP-REAL n) | (D \ {p1,p2}) are_homeomorphic by T_0TOPSP:def 1; :: thesis: verum