Topological fields #
A topological division ring is a topological ring whose inversion function is continuous at every non-zero element.
Left-multiplication by a nonzero element of a topological division ring is proper, i.e., inverse images of compact sets are compact.
Right-multiplication by a nonzero element of a topological division ring is proper, i.e., inverse images of compact sets are compact.
A topological division ring is a division ring with a topology where all operations are continuous, including inversion.
Instances
The (topological-space) closure of a subfield of a topological field is itself a subfield.
Equations
- One or more equations did not get rendered due to their size.
Instances For
This section is about affine homeomorphisms from a topological field 𝕜
to itself.
Technically it does not require 𝕜
to be a topological field, a topological ring that
happens to be a field is enough.
The map fun x => a * x + b
, as a homeomorphism from 𝕜
(a topological field) to itself,
when a ≠ 0
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Some results about functions on preconnected sets valued in a ring or field with a topology.
If f
is a function α → 𝕜
which is continuous on a preconnected set S
, and
f ^ 2 = 1
on S
, then either f = 1
on S
, or f = -1
on S
.
If f, g
are functions α → 𝕜
, both continuous on a preconnected set S
, with
f ^ 2 = g ^ 2
on S
, and g z ≠ 0
all z ∈ S
, then either f = g
or f = -g
on
S
.
If f, g
are functions α → 𝕜
, both continuous on a preconnected set S
, with
f ^ 2 = g ^ 2
on S
, and g z ≠ 0
all z ∈ S
, then as soon as f = g
holds at
one point of S
it holds for all points.