let r be real number ; :: thesis: ( r > 0 implies ex k being Element of NAT st
for n being Element of NAT st n >= k holds
abs (((dist seq,g) . n) - 0 ) < r )
assume A3: r > 0 ; :: thesis: ex k being Element of NAT st
for n being Element of NAT st n >= k holds
abs (((dist seq,g) . n) - 0 ) < r
r is Real by XREAL_0:def 1;
then consider m1 being Element of NAT such that
A4: for n being Element of NAT st n >= m1 holds
dist (seq . n),g < r by A1, A3, Def2;
take k = m1; :: thesis: for n being Element of NAT st n >= k holds
abs (((dist seq,g) . n) - 0 ) < r
let n be Element of NAT ; :: thesis: ( n >= k implies abs (((dist seq,g) . n) - 0 ) < r )
dist (seq . n),g >= 0 by CSSPACE:56;
then A5: abs ((dist (seq . n),g) - 0 ) = dist (seq . n),g by ABSVALUE:def 1;
assume n >= k ; :: thesis: abs (((dist seq,g) . n) - 0 ) < r
then dist (seq . n),g < r by A4;
hence abs (((dist seq,g) . n) - 0 ) < r by A5, Def4; :: thesis: verum