let n be Nat; for r being Real
for e being Point of (Euclid n) st n <> 0 holds
OpenHypercube (e,(r / (sqrt n))) c= Ball (e,r)
let r be Real; for e being Point of (Euclid n) st n <> 0 holds
OpenHypercube (e,(r / (sqrt n))) c= Ball (e,r)
let e be Point of (Euclid n); ( n <> 0 implies OpenHypercube (e,(r / (sqrt n))) c= Ball (e,r) )
assume A1:
n <> 0
; OpenHypercube (e,(r / (sqrt n))) c= Ball (e,r)
let x be object ; TARSKI:def 3 ( not x in OpenHypercube (e,(r / (sqrt n))) or x in Ball (e,r) )
assume A2:
x in OpenHypercube (e,(r / (sqrt n)))
; x in Ball (e,r)
then reconsider x = x as Point of (Euclid n) ;
A3:
dist (x,e) < (r / (sqrt n)) * (sqrt n)
by A1, A2, Th16;
(r / (sqrt n)) * (sqrt n) = r
by A1, XCMPLX_1:87;
hence
x in Ball (e,r)
by A3, METRIC_1:11; verum