Lebesgue measure on ℂ
#
In this file, we consider the Lebesgue measure on ℂ
defined as the push-forward of the volume
on ℝ²
under the natural isomorphism and prove that it is equal to the measure volume
of ℂ
coming from its InnerProductSpace
structure over ℝ
. For that, we consider the two frequently
used ways to represent ℝ²
in mathlib
: ℝ × ℝ
and Fin 2 → ℝ
, define measurable equivalences
(MeasurableEquiv
) to both types and prove that both of them are volume preserving (in the sense
of MeasureTheory.measurePreserving
).
@[simp]
@[simp]
theorem
Complex.measurableEquivPi_symm_apply
(p : Fin 2 → ℝ)
:
Complex.measurableEquivPi.symm p = ↑(p 0) + ↑(p 1) * Complex.I
Measurable equivalence between ℂ
and ℝ × ℝ
.
Equations
Instances For
@[simp]
theorem
Complex.measurableEquivRealProd_apply
(a : ℂ)
:
Complex.measurableEquivRealProd a = (a.re, a.im)
@[simp]
theorem
Complex.measurableEquivRealProd_symm_apply
(p : ℝ × ℝ)
:
Complex.measurableEquivRealProd.symm p = { re := p.1, im := p.2 }