Natural Deduction - Introduction and Elimination

Introduction and Elimination

Now we discuss the "A true" judgment. Inference rules that introduce a logical connective in the conclusion are known as introduction rules. To introduce conjunctions, i.e., to conclude "A and B true" for propositions A and B, one requires evidence for "A true" and "B true". As an inference rule:

\frac{A\hbox{ true} \qquad B\hbox{ true}}{A \wedge B\hbox{ true}}\ \wedge_I

It must be understood that in such rules the objects are propositions. That is, the above rule is really an abbreviation for:

\frac{A\hbox{ prop} \qquad B\hbox{ prop} \qquad A\hbox{ true} \qquad B\hbox{ true}}{A \wedge B\hbox{ true}}\ \wedge_I

This can also be written:

\frac{A \wedge B\hbox{ prop} \qquad A\hbox{ true} \qquad B\hbox{ true}}{A \wedge B\hbox{ true}}\ \wedge_I

In this form, the first premise can be satisfied by the formation rule, giving the first two premises of the previous form. In this article we shall elide the "prop" judgments where they are understood. In the nullary case, one can derive truth from no premises.

\frac{\ }{\top\hbox{ true}}\ \top_I

If the truth of a proposition can be established in more than one way, the corresponding connective has multiple introduction rules.

\frac{A\hbox{ true}}{A \vee B\hbox{ true}}\ \vee_{I1} \qquad \frac{B\hbox{ true}}{A \vee B\hbox{ true}}\ \vee_{I2}

Note that in the nullary case, i.e., for falsehood, there are no introduction rules. Thus one can never infer falsehood from simpler judgments.

Dual to introduction rules are elimination rules to describe how to de-construct information about a compound proposition into information about its constituents. Thus, from "A ∧ B true", we can conclude "A true" and "B true":

\frac{A \wedge B\hbox{ true}}{A\hbox{ true}}\ \wedge_{E1} \qquad \frac{A \wedge B\hbox{ true}}{B\hbox{ true}}\ \wedge_{E2}

As an example of the use of inference rules, consider commutativity of conjunction. If A ∧ B is true, then B ∧ A is true; This derivation can be drawn by composing inference rules in such a fashion that premises of a lower inference match the conclusion of the next higher inference.

\cfrac{\cfrac{A \wedge B\hbox{ true}}{B\hbox{ true}}\ \wedge_{E2} \qquad \cfrac{A \wedge B\hbox{ true}}{A\hbox{ true}}\ \wedge_{E1}} {B \wedge A\hbox{ true}}\ \wedge_I

The inference figures we have seen so far are not sufficient to state the rules of implication introduction or disjunction elimination; for these, we need a more general notion of hypothetical derivation.

Read more about this topic:  Natural Deduction

Famous quotes containing the words introduction and/or elimination:

    Such is oftenest the young man’s introduction to the forest, and the most original part of himself. He goes thither at first as a hunter and fisher, until at last, if he has the seeds of a better life in him, he distinguishes his proper objects, as a poet or naturalist it may be, and leaves the gun and fish-pole behind. The mass of men are still and always young in this respect.
    Henry David Thoreau (1817–1862)

    To reduce the imagination to a state of slavery—even though it would mean the elimination of what is commonly called happiness—is to betray all sense of absolute justice within oneself. Imagination alone offers me some intimation of what can be.
    André Breton (1896–1966)