I’m rather new to the Coq theorem prover. So I may very well have missed something fundamental when going through the tutorials.

Before I ask my question, let me assume some assumptions and recap *modus ponens*.

```
Coq < Parameter Antecedent : Prop .
Coq < Parameter Consequent : Prop .
Coq < Conjecture Minor : Antecedent .
Coq < Conjecture Major : Antecedent -> Consequent .
```

With these assumptions, modus ponens can be applied: a proof for the inferred `Consequent`

can be constructed based on the `Minor`

premisse and the `Major`

premisse. Such a proof is simply the function application of `Major`

with argument `Minor`

.

```
Coq < Theorem ConsequentProof : Consequent . Proof . exact (Major Minor) . Qed .
```

That’s pretty neat.

So, now I wonder: *is such modus ponens inference possible in Coq with universally quantified propositions*?

In my example, I let the variable range over `nat`

, but this is an arbitrary choice. Any `Set`

(any combination of `Set`

s?) (any `Type`

?) will do.

```
Coq < Parameter FunctionAntecedent : nat -> Prop .
Coq < Parameter FunctionConsequent : nat -> Prop .
Coq < Conjecture QuantifiedMinor : forall n
: nat, FunctionAntecedent n .
Coq < Conjecture QuantifiedMajor : forall n
: nat, FunctionAntecedent n -> FunctionConsequent n .
```

Can I now proof `forall n : nat, FunctionConsequent n`

?
My attempt does not work:

```
Coq < Theorem QuantifiedConsequentProof : forall n : nat, FunctionConsequent n .
QuantifiedConsequentProof < Proof .
QuantifiedConsequentProof < exact (forall n : nat,
QuantifiedMajor n (QuantifiedMinor n)) .
QuantifiedConsequentProof < Abort .
```

This is the error output:

```
> exact (forall n : nat, QuantifiedMajor n (QuantifiedMinor n)) .
> ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Error: In environment
n : nat
The term "QuantifiedMajor n (QuantifiedMinor n)" has type
"FunctionConsequent n" which should be Set, Prop or Type.
```

My questions:

- (
*a*) Is this`QuantifiedConsequent`

provable? How, with which tactics? - (
*b*) Or do I need additional assumptions? - (
*c*) Also: what is the rationale for the type restriction (`Set`

,`Prop`

or`Type`

, unquantified)? Are there any inconsistencies that could arise if Coq were more lenient? - (
*d*) Finally, as a catch-all question for any enlightening explanation: did I miss something?