Mutually singular measures #
Two measures μ
, ν
are said to be mutually singular (MeasureTheory.Measure.MutuallySingular
,
localized notation μ ⟂ₘ ν
) if there exists a measurable set s
such that μ s = 0
and
ν sᶜ = 0
. The measurability of s
is an unnecessary assumption (see
MeasureTheory.Measure.MutuallySingular.mk
) but we keep it because this way rcases (h : μ ⟂ₘ ν)
gives us a measurable set and usually it is easy to prove measurability.
In this file we define the predicate MeasureTheory.Measure.MutuallySingular
and prove basic
facts about it.
Tags #
measure, mutually singular
Two measures μ
, ν
are said to be mutually singular if there exists a measurable set s
such that μ s = 0
and ν sᶜ = 0
.
Instances For
Two measures μ
, ν
are said to be mutually singular if there exists a measurable set s
such that μ s = 0
and ν sᶜ = 0
.
Equations
- MeasureTheory.«term_⟂ₘ_» = Lean.ParserDescr.trailingNode `MeasureTheory.term_⟂ₘ_ 60 60 (Lean.ParserDescr.binary `andthen (Lean.ParserDescr.symbol " ⟂ₘ ") (Lean.ParserDescr.cat `term 61))
Instances For
A set such that μ h.nullSet = 0
and ν h.nullSetᶜ = 0
.
Equations
- h.nullSet = Exists.choose h