let X be RealNormSpace; :: thesis:
let z be Element of ; :: thesis:
let r be real number ; :: thesis:
reconsider x = z as Point of ;
consider M' being non empty MetrStruct , z' being Element of such that
A1: M' = MetricSpaceNorm X and
A2: z' = z and
A3: Ball z,r = { q where q is Element of : dist z',q < r } by METRIC_1:def 15;

let a be set ; :: thesis:
assume a in { y where y is Point of : ||.(x - y).|| < r } ; :: thesis:
then consider y being Point of such that
A4: ( a = y & ||.(x - y).|| < r ) ;
reconsider t = y as Element of by A1;
||.(x - y).|| = dist z',t by A1, A2, Def1;
hence a in { q where q is Element of : dist z',q < r } by A4; :: thesis:

end;

then A5: { y where y is Point of : ||.(x - y).|| < r } c= { q where q is Element of : dist z',q < r } by TARSKI:def 3;

let a be set ; :: thesis:
assume a in { q where q is Element of : dist z',q < r } ; :: thesis:
then consider q being Element of such that
A6: ( a = q & dist z',q < r ) ;
reconsider t = q as Point of by A1;
||.(x - t).|| = dist z',q by A1, A2, Def1;
hence a in { y where y is Point of : ||.(x - y).|| < r } by A6; :: thesis:

end;

then { q where q is Element of : dist z',q < r } c= { y where y is Point of : ||.(x - y).|| < r } by TARSKI:def 3;
then { q where q is Element of : dist z',q < r } = { y where y is Point of : ||.(x - y).|| < r } by A5, XBOOLE_0:def 10;
hence ex x being Point of st
( x = z & Ball z,r = { y where y is Point of : ||.(x - y).|| < r } ) by A3; :: thesis: