theorem
Mathlib.Meta.NormNum.isRat_ofScientific_of_true
{α : Type u_1}
[DivisionRing α]
{m : ℕ}
{e : ℕ}
{n : ℤ}
{d : ℕ}
:
Mathlib.Meta.NormNum.IsRat (↑(mkRat (↑m) (10 ^ e))) n d →
Mathlib.Meta.NormNum.IsRat (OfScientific.ofScientific m true e) n d
theorem
Mathlib.Meta.NormNum.isNat_ofScientific_of_false
{α : Type u_1}
[DivisionRing α]
{m : ℕ}
{e : ℕ}
{nm : ℕ}
{ne : ℕ}
{n : ℕ}
:
Mathlib.Meta.NormNum.IsNat m nm →
Mathlib.Meta.NormNum.IsNat e ne →
n = nm.mul (10 ^ ne) → Mathlib.Meta.NormNum.IsNat (OfScientific.ofScientific m false e) n
The norm_num extension which identifies expressions in scientific notation, normalizing them
to rat casts if the scientific notation is inherited from the one for rationals.
Equations
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