Cardinal Divisibility #
We show basic results about divisibility in the cardinal numbers. This relation can be characterised
in the following simple way: if a and b are both less than ℵ₀, then a ∣ b iff they are
divisible as natural numbers. If b is greater than ℵ₀, then a ∣ b iff a ≤ b. This
furthermore shows that all infinite cardinals are prime; recall that a * b = max a b if
ℵ₀ ≤ a * b; therefore a ∣ b * c = a ∣ max b c and therefore clearly either a ∣ b or a ∣ c.
Note furthermore that no infinite cardinal is irreducible
(Cardinal.not_irreducible_of_aleph0_le), showing that the cardinal numbers do not form a
CancelCommMonoidWithZero.
Main results #
Cardinal.prime_of_aleph0_le: aCardinalis prime if it is infinite.Cardinal.is_prime_iff: aCardinalis prime iff it is infinite or a prime natural number.Cardinal.isPrimePow_iff: aCardinalis a prime power iff it is infinite or a natural number which is itself a prime power.
Equations
- Cardinal.instUniqueUnits = { default := 1, uniq := Cardinal.instUniqueUnits.proof_1 }
theorem
Cardinal.dvd_of_le_of_aleph0_le
{a : Cardinal.{u}}
{b : Cardinal.{u}}
(ha : a ≠ 0)
(h : a ≤ b)
(hb : Cardinal.aleph0 ≤ b)
:
a ∣ b
@[simp]
theorem
Cardinal.isPrimePow_iff
{a : Cardinal.{u_1}}
:
IsPrimePow a ↔ Cardinal.aleph0 ≤ a ∨ ∃ (n : ℕ), a = ↑n ∧ IsPrimePow n