Metamath Proof Explorer


Theorem cnfldds

Description: The metric of the field of complex numbers. (Contributed by Mario Carneiro, 14-Aug-2015) (Revised by Mario Carneiro, 6-Oct-2015) (Revised by Thierry Arnoux, 17-Dec-2017)

Ref Expression
Assertion cnfldds abs = dist fld

Proof

Step Hyp Ref Expression
1 absf abs :
2 subf : ×
3 fco abs : : × abs : ×
4 1 2 3 mp2an abs : ×
5 cnex V
6 5 5 xpex × V
7 reex V
8 fex2 abs : × × V V abs V
9 4 6 7 8 mp3an abs V
10 cnfldstr fld Struct 1 13
11 dsid dist = Slot dist ndx
12 snsstp3 dist ndx abs TopSet ndx MetOpen abs ndx dist ndx abs
13 ssun1 TopSet ndx MetOpen abs ndx dist ndx abs TopSet ndx MetOpen abs ndx dist ndx abs UnifSet ndx metUnif abs
14 ssun2 TopSet ndx MetOpen abs ndx dist ndx abs UnifSet ndx metUnif abs Base ndx + ndx + ndx × * ndx * TopSet ndx MetOpen abs ndx dist ndx abs UnifSet ndx metUnif abs
15 df-cnfld fld = Base ndx + ndx + ndx × * ndx * TopSet ndx MetOpen abs ndx dist ndx abs UnifSet ndx metUnif abs
16 14 15 sseqtrri TopSet ndx MetOpen abs ndx dist ndx abs UnifSet ndx metUnif abs fld
17 13 16 sstri TopSet ndx MetOpen abs ndx dist ndx abs fld
18 12 17 sstri dist ndx abs fld
19 10 11 18 strfv abs V abs = dist fld
20 9 19 ax-mp abs = dist fld