reconsider J = R^1 as non empty convex SubSpace of R^1 ;
reconsider r0 = R^1 0 , ri = R^1 i as Point of J ;
reconsider O = ExtendInt i, ff = f as Path of r0,ri ;
reconsider G = R1Homotopy O,ff as Function of [:I[01] ,I[01] :],R^1 ;
take F = CircleMap * G; :: according to BORSUK_2:def 7 :: thesis: ( F is continuous & ( for b₁ being Element of the carrier of I[01] holds
( F . b₁,0 = (cLoop i) . b₁ & F . b₁,1 = P . b₁ & F . 0 ,b₁ = c[10] & F . 1,b₁ = c[10] ) ) )
thus F is continuous ; :: thesis: for b₁ being Element of the carrier of I[01] holds
( F . b₁,0 = (cLoop i) . b₁ & F . b₁,1 = P . b₁ & F . 0 ,b₁ = c[10] & F . 1,b₁ = c[10] )
let s be Point of I[01] ; :: thesis: ( F . s,0 = (cLoop i) . s & F . s,1 = P . s & F . 0 ,s = c[10] & F . 1,s = c[10] )
thus F . s,0 = CircleMap . (G . s,j0) by Lm5, BINOP_1:30
.= CircleMap . (((1 - j0) * ((ExtendInt i) . s)) + (j0 * (f . s))) by TOPALG_2:def 5
.= (cLoop i) . s by A2, FUNCT_2:21 ; :: thesis: ( F . s,1 = P . s & F . 0 ,s = c[10] & F . 1,s = c[10] )
thus F . s,1 = CircleMap . (G . s,j1) by Lm5, BINOP_1:30
.= CircleMap . (((1 - j1) * ((ExtendInt i) . s)) + (j1 * (f . s))) by TOPALG_2:def 5
.= P . s by FUNCT_2:21 ; :: thesis: ( F . 0 ,s = c[10] & F . 1,s = c[10] )
thus F . 0 ,s = CircleMap . (G . j0,s) by Lm5, BINOP_1:30
.= CircleMap . (((1 - s) * ((ExtendInt i) . j0)) + (s * (f . j0))) by TOPALG_2:def 5
.= CircleMap . (((1 - s) * (R^1 0 )) + (s * (f . j0))) by BORSUK_2:def 4
.= CircleMap . (((1 - s) * (R^1 0 )) + (s * (R^1 0 ))) by BORSUK_2:def 4
.= CircleMap . (((1 - s) * 0 ) + (s * 0 )) by TOPREALB:def 2
.= c[10] by TOPREALB:33 ; :: thesis: F . 1,s = c[10]
thus F . 1,s = CircleMap . (G . j1,s) by Lm5, BINOP_1:30
.= CircleMap . (((1 - s) * ((ExtendInt i) . j1)) + (s * (f . j1))) by TOPALG_2:def 5
.= CircleMap . (((1 - s) * (R^1 i)) + (s * (f . j1))) by BORSUK_2:def 4
.= CircleMap . (((1 - s) * (R^1 i)) + (s * (R^1 i))) by BORSUK_2:def 4
.= CircleMap . i by TOPREALB:def 2
.= c[10] by TOPREALB:33 ; :: thesis: verum