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Mathlib.Algebra.GroupWithZero.Action.Prod

Prod instances for multiplicative actions with zero #

This file defines instances for MulActionWithZero and related structures on α × β

See also #

theorem Prod.smul_zero_mk {M : Type u_1} {β : Type u_4} [SMul M β] {α : Type u_5} [Monoid M] [AddMonoid α] [DistribMulAction M α] (a : M) (c : β) :
a (0, c) = (0, a c)
theorem Prod.smul_mk_zero {M : Type u_1} {α : Type u_3} [SMul M α] {β : Type u_5} [Monoid M] [AddMonoid β] [DistribMulAction M β] (a : M) (b : α) :
a (b, 0) = (a b, 0)
instance Prod.smulZeroClass {R : Type u_5} {M : Type u_6} {N : Type u_7} [Zero M] [Zero N] [SMulZeroClass R M] [SMulZeroClass R N] :
Equations
instance Prod.distribSMul {R : Type u_5} {M : Type u_6} {N : Type u_7} [AddZeroClass M] [AddZeroClass N] [DistribSMul R M] [DistribSMul R N] :
DistribSMul R (M × N)
Equations
instance Prod.distribMulAction {M : Type u_1} {N : Type u_2} {R : Type u_5} [Monoid R] [AddMonoid M] [AddMonoid N] [DistribMulAction R M] [DistribMulAction R N] :
Equations
instance Prod.mulDistribMulAction {M : Type u_1} {N : Type u_2} {R : Type u_5} [Monoid R] [Monoid M] [Monoid N] [MulDistribMulAction R M] [MulDistribMulAction R N] :
Equations

Scalar multiplication as a homomorphism #

@[reducible, inline]
abbrev DistribMulAction.prodOfSMulCommClass (M : Type u_1) (N : Type u_2) (α : Type u_3) [Monoid M] [Monoid N] [AddMonoid α] [DistribMulAction M α] [DistribMulAction N α] [SMulCommClass M N α] :

Construct a DistribMulAction by a product monoid from DistribMulActions by the factors.

Equations
Instances For
    def DistribMulAction.prodEquiv (M : Type u_1) (N : Type u_2) (α : Type u_3) [Monoid M] [Monoid N] [AddMonoid α] :
    DistribMulAction (M × N) α (x : DistribMulAction M α) ×' (x_1 : DistribMulAction N α) ×' SMulCommClass M N α

    A DistribMulAction by a product monoid is equivalent to commuting DistribMulActions by the factors.

    Equations
    • One or more equations did not get rendered due to their size.
    Instances For