Field/algebra norm / trace and localization #
This file contains results on the combination of IsLocalization
and Algebra.norm
,
Algebra.trace
and Algebra.discr
.
Main results #
-
Algebra.norm_localization
: letS
be an extension ofR
andRₘ Sₘ
be localizations atM
ofR S
respectively. Then the norm ofa : Sₘ
overRₘ
is the norm ofa : S
overR
ifS
is free asR
-module. -
Algebra.trace_localization
: letS
be an extension ofR
andRₘ Sₘ
be localizations atM
ofR S
respectively. Then the trace ofa : Sₘ
overRₘ
is the trace ofa : S
overR
ifS
is free asR
-module. -
Algebra.discr_localizationLocalization
: letS
be an extension ofR
andRₘ Sₘ
be localizations atM
ofR S
respectively. Letb
be aR
-basis ofS
. Then discriminant of theRₘ
-basis ofSₘ
induced byb
is the discriminant ofb
.
Tags #
field norm, algebra norm, localization
Let S
be an extension of R
and Rₘ Sₘ
be localizations at M
of R S
respectively.
Then the norm of a : Sₘ
over Rₘ
is the norm of a : S
over R
if S
is free as R
-module.
Let S
be an extension of R
and Rₘ Sₘ
be localizations at M
of R S
respectively.
Then the trace of a : Sₘ
over Rₘ
is the trace of a : S
over R
if S
is free as R
-module.
Let S
be an extension of R
and Rₘ Sₘ
be localizations at M
of R S
respectively. Let
b
be a R
-basis of S
. Then discriminant of the Rₘ
-basis of Sₘ
induced by b
is the
discriminant of b
.