1.4.1. A closer look at entailment

We have so far spoken of entailment somewhat informally as the relation between premises and a conclusion that merely extracts information from them and thus brings no risk of new error. Another way of putting the latter point is that a relation of entailment provides a conditional guarantee of the truth of the conclusion: it must be true if the premises are all true.

We will begin with a couple of ways of saying this more formally.

Γ ⇒ φ if and only if there is no logically possible world in which φ is false while all members of Γ are true
if and only if φ is true in every logically possible world in which all members of Γ are true

These are not two different concepts of entailment, for the two statements to the right of if and only if say the same thing. Still, they provide different perspectives on the concept. The second—which we will speak of as the positive form of the definition—is closely tied to the idea of a conditional guarantee of truth and to the reason why entailment is valuable. The first form—the negative form—makes the content of the concept especially clear, and this form of definition will generally be the more useful when we try to prove things concerning entailment. The other deductive properties and relations we have discussed or will go on to discuss can be given analogous pairs of definitions, a negative form ruling out certain patterns of truth values and another form stating a more positive generalization.

The equivalence of the two forms of the definition is a general feature of generalizations. When a generalization is false, it is because of counterexample, something of sort about which we generalize that does not have the property we have said all such things have. A counterexample to the claim that all birds fly is a bird that does not fly. In the positive definition of entailment, the generalization is about all possible worlds in which the premises are all true and such worlds are said to all have the property that the conclusion is true in them. A counterexample to such a generalization is then a world in which the premises are all true but the conclusion is not. The negative form of the definition then affirms the generalization by saying that there is no counterexample to it. As in this case, one good way to clarify a generalization is always to ask what sort of counterexample is being ruled out.

It is important to notice how little a claim of entailment says about the actual truth values of the premises and conclusion of an argument. We can distinguish four patterns of truth values that the premises and conclusion could exhibit. Of these, a claim that an argument is valid rules out only the one appearing at the far right of Figure 1.4.1-1.

Patterns admitted ruled out
Premises all T not all T not all T all T
Conclusion T T F F

Fig. 1.4.1-1. Patterns of truth values admitted and ruled out by entailment.

So, knowing that an argument is valid tells us about actual truth values only that we do not find the conclusion actually false when the premises are all actually true. The other three patterns all appear in the actual truth values of some valid arguments (though not all are possible for certain valid arguments because other deductive properties and relations of the sentences involved may rule them out).

To see examples of this, consider an argument of the simple sort we will focus on in the next chapter:

It’s hot and sunny
It’s humid but windy
It’s hot and humid

This argument is clearly valid since its conclusion merely combines two items of information each of which is extracted from one of the premises. Depending on the state of the weather, the premises may be both true, both false, or one true and the other false; and, in any case where they are not both true the conclusion can be either true or false. In particular, if it’s hot and humid but neither sunny nor windy, the conclusion will be true even though both premises are false. This should not be surprising: information can be extracted from a pair of sentences whether they are true or not, and the information extracted when they are not both true might be either true or false.

Of course, seeing one of these permitted patterns does not tell us that the argument is valid; no information that is limited to actual truth values can do that because validity concerns all possible worlds, not just the actual one. In particular, having true premises and a true conclusion does not make an argument valid. For example, the following argument is not valid:

Indianapolis is the capital of Indiana
Springfield is the capital of Illinois

For, although the single premise and the conclusion are both true, there is a logical possibility of the capital of Illinois being different while that of Indiana is as it actually is, so there is a possible world that provides a counterexample to the claim that the argument is valid.

Glen Helman 28 Aug 2008