I try to solve this proof but I don't find how to it. I have two subgoals but I don't even know if it's correct.

Here the lemma that I trid to solve with this but I'm stuck :

2 subgoals

a, b : Nat

H : Equal (leB a b) True

______________________________________(1/2)

Equal match b with

| Z => False

| S m' => leB a m'

end (leB a b) / Equal (leB b (S a)) (leB a b)

______________________________________(2/2)

Equal (leB (S a) b) True / Equal (leB b (S a)) True

```
Inductive Bool : Type :=
True : Bool | False : Bool.
Definition Not(b : Bool) : Bool :=
Bool_rect (fun a => Bool)
False
True
b.
Lemma classic : forall b : Bool, Equal b (Not (Not b)).
Proof.
intro.
induction b.
simpl.
apply refl.
simpl.
apply refl.
Qed.
Definition Equal(T : Type)(x y : T) : Prop :=
forall P : T -> Prop, (P x) -> (P y).
Arguments Equal[T].
(* Avec certaines versions Arguments Equal[T] *)
Lemma refl : forall T : Type, forall x : T, Equal x x.
Proof.
intros.
unfold Equal.
intros.
assumption.
Qed.
Fixpoint leB n m : Bool :=
match n, m with
| Z, _ => True
| _, Z => False
| S n', S m' => leB n' m'
end.
```

`Equal`

or`Bool`

. Also you need to tell us what you tried and why you are stuck if we are to help you.