Inverse trigonometric functions. #
See also Analysis.SpecialFunctions.Trigonometric.Arctan
for the inverse tan function.
(This is delayed as it is easier to set up after developing complex trigonometric functions.)
Basic inequalities on trigonometric functions.
Inverse of the sin
function, returns values in the range -π / 2 ≤ arcsin x ≤ π / 2
.
It defaults to -π / 2
on (-∞, -1)
and to π / 2
to (1, ∞)
.
Equations
- Real.arcsin = Subtype.val ∘ Set.IccExtend Real.arcsin.proof_2 ⇑Real.sinOrderIso.symm
Instances For
theorem
Real.arcsin_inj
{x y : ℝ}
(hx₁ : -1 ≤ x)
(hx₂ : x ≤ 1)
(hy₁ : -1 ≤ y)
(hy₂ : y ≤ 1)
:
Real.arcsin x = Real.arcsin y ↔ x = y
@[simp]
@[simp]
@[simp]
@[simp]
Real.sin
as a PartialHomeomorph
between (-π / 2, π / 2)
and (-1, 1)
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
Inverse of the cos
function, returns values in the range 0 ≤ arccos x
and arccos x ≤ π
.
It defaults to π
on (-∞, -1)
and to 0
to (1, ∞)
.
Equations
- Real.arccos x = Real.pi / 2 - Real.arcsin x
Instances For
theorem
Real.arccos_eq_of_eq_cos
{x y : ℝ}
(hy₀ : 0 ≤ y)
(hy₁ : y ≤ Real.pi)
(hxy : x = Real.cos y)
:
Real.arccos x = y
theorem
Real.arccos_inj
{x y : ℝ}
(hx₁ : -1 ≤ x)
(hx₂ : x ≤ 1)
(hy₁ : -1 ≤ y)
(hy₂ : y ≤ 1)
:
Real.arccos x = Real.arccos y ↔ x = y