Usually, when you are working on a proof, you should use the logical
forms of the givens and goals to guide you in choosing what proof
strategies to use. Here is a summary of the various forms that givens and
goals might take, the strategies that are most appropriate for each form,
and how to carry out those strategies in Proof Designer. For a more
complete explanation of these strategies, see my book
*How To Prove
It*, published by Cambridge
University Press.

*P*→*Q*- Assume that
*P*is true and prove*Q*. To do this in Proof Designer, select the goal and then give the Direct command in the Goal menu. - Prove the contrapositive; i.e., assume that
*Q*is false and prove that*P*is false. In Proof Designer, select the goal and give the Contrapositive command in the Goal menu.

- Assume that
- ¬
*P*- Reexpress as a positive statement. In Proof Designer, select the goal, give the Reexpress command in the Strategy menu, and use the Reexpress Negative button in the Reexpress dialog box.
- Use proof by contradiction; i.e., assume
*P*is true and try to reach a contradiction. In Proof Designer, select the goal and give the Contradiction command in the Strategy menu. If you already know which given you are planning to contradict, you can select it too before giving the Contradiction command, and Proof Designer will indicate what you have to prove to achieve the desired contradiction.

*P*_{1}∧*P*_{2}∧…∧*P*_{n}- Prove
*P*_{1},*P*_{2}, …,*P*separately. In other words, treat this as a list of_{n}*n*separate goals. In Proof Designer, select the goal and give the Conjunction command in the Goal menu. If you already have some of the statements*P*_{1},*P*_{2}, …,*P*as givens, you can select them too and Proof Designer will only ask you to prove the statements from this list that you don't already know._{n}

- Prove
*P*_{1}∨*P*_{2}∨…∨*P*_{n}- Assume that all but one of the statements in the list
*P*_{1},*P*_{2}, …,*P*are false, and prove that the remaining statement is true. In Proof Designer, select the goal and give the Disjunction command in the Goal menu. Proof Designer will ask which statement you are planning to prove. If you don't want to assume the negations of the other statements, remove the check mark from the “Assume negations of others” check box by clicking on it._{n} - Use proof by cases. In each case, prove one of the statements
*P*_{1},*P*_{2}, …,*P*. In Proof Designer, use the Cases command in the Strategy menu to break your proof into cases. Once you have broken the proof into cases, your goal in each case will be_{n}*P*_{1}∨*P*_{2}∨…∨*P*. For each case, select this goal, give the Disjunction command in the Goal menu, and tell Proof Designer which statement you plan to prove. If you are using this strategy, you probably_{n}*will*want to remove the check mark from the “Assume negations of others” check box.

- Assume that all but one of the statements in the list
*P*↔*Q*- Prove
*P*→*Q*and*Q*→*P*, using the methods listed under*P*→*Q*above. In Proof Designer, select the goal and give the Biconditional command in the Goal menu.

- Prove
- ∀
*x**P*(*x*)- Let
*x*stand for an arbitrary object, and prove*P*(*x*). (If the letter*x*already stands for something in the proof, you will have to use a different letter for the arbitrary object.) In Proof Designer, select the goal and give the Arbitrary Object command in the Goal menu.

- Let
- ∃
*x**P*(*x*)- Find a value of
*x*that makes*P*(*x*) true. Prove*P*(*x*) for this value of*x*. In Proof Designer, select the goal and give the Existence command in the Goal menu. Proof Designer will ask you what value you want to use for*x*. You have two choices: If you know what value you want to assign to*x*, select the “Use this value” choice and type in the value. If you don't know what value to use, select the “Use this new variable, whose definition will be inserted later” choice, and type in an unused variable name. In the latter case, you can begin working on the proof of*P*(*x*) even before you have decided what value you want to use for*x*.

- Find a value of
- ∃!
*x**P*(*x*)- Prove ∃
*x**P*(*x*) (existence) and ∀*x*∀*y*(*P*(*x*)∧*P*(*y*)→*x*=*y*) (uniqueness). In Proof Designer, select the goal and give the Existence & Uniqueness command in the Goal menu. - Prove the equivalent statement
∃
*x*(*P*(*x*)∧∀*y*(*P*(*y*)→*y*=*x*)). In Proof Designer, select the goal, give the Reexpress command in the Strategy menu, and click on the Apply Definition button.

- Prove ∃

*P*→*Q*- If you are also given
*P*, or you can prove that*P*is true, then you can conclude that*Q*is true. In Proof Designer, if you already have*P*in your givens list then you can select the givens*P*and*P*→*Q*and give the Modus Ponens command in the Infer menu. If you don't already have*P*in the givens list but you think you can prove it, you may want to insert a proof of*P*at this point in the proof, using the Insert command in the Edit menu. - Use the contrapositive: If you are given or can prove that
*Q*is false, you can conclude that*P*is false. In Proof Designer, select the givens ¬*Q*and*P*→*Q*and give the Modus Tollens command in the Infer menu. If necessary, you may first have to insert a proof of ¬*Q*.

- If you are also given
- ¬
*P*- Reexpress as a positive statement. In Proof Designer, select the given, give the Reexpress command in the Strategy menu, and use the Reexpress Negative button in the Reexpress dialog box.
- If you are doing a proof by contradiction, you can reach a
contradiction by proving
*P*. In Proof Designer, select the given and give the Contradiction command in the Strategy menu.

*P*_{1}∧*P*_{2}∧…∧*P*_{n}- Treat this as a list of separate givens,
*P*_{1},*P*_{1}, …,*P*. In Proof Designer, select the given and give the Split Up command in the Infer menu._{n}

- Treat this as a list of separate givens,
*P*_{1}∨*P*_{2}∨…∨*P*_{n}- Use proof by cases. In case 1 assume
*P*_{1}is true, in case 2 assume*P*_{2}is true, etc. In Proof Designer, select the given and give the Cases command in the Strategy menu. - If you are also given that some of the statements in the list
*P*_{1},*P*_{2}, …,*P*are false, or you can prove that they are false, you can conclude that one of the other statements in the list must be true. In ProofDesigner, select the given_{n}*P*_{1}∨*P*_{2}∨…∨*P*, together with any negations of statements in the list_{n}*P*_{1},*P*_{2}, …,*P*that you have in your givens list, and give the Disjunctive Syllogism command in the Infer menu._{n}

- Use proof by cases. In case 1 assume
*P*↔*Q*- Treat this as two givens:
*P*→*Q*, and*Q*→*P*. In Proof Designer, select the given and give the Split Up command in the Infer menu.

- Treat this as two givens:
- ∀
*x**P*(*x*)- You may plug in any value, say
*a*, for*x*, and conclude that*P*(*a*) is true. In Proof Designer, select the given and give the Universal Instantiation command in the Infer menu. Proof Designer will ask what you want to plug in for*x*. As with proofs of goals of the form ∃*x**P*(*x*), if you're not sure what to plug in for*x*, you can choose a new variable to stand for the object to be plugged in, and fill in the definition of this variable later.

- You may plug in any value, say
- ∃
*x**P*(*x*)- Introduce a new variable, say
*x*_{0}, into the proof, to stand for a particular object for which*P*(*x*_{0}) is true. In Proof Designer, select the given and give the Existential Instantiation command in the Infer menu.

- Introduce a new variable, say
- ∃!
*x**P*(*x*)- Introduce a new variable, say
*x*_{0}, into the proof, to stand for a particular object for which*P*(*x*_{0}) is true. You may also assume that ∀*y*(*P*(*y*)→*y*=*x*_{0}). In Proof Designer, select the given and give the Existential Instantiation command in the Infer menu.

- Introduce a new variable, say

- Proof by contradiction: Assume the goal is false and derive a contradiction. In Proof Designer, select the goal and give the Contradiction command in the Strategy menu. If you already know which given you are planning to contradict, you can select it too before giving the Contradiction command
- Proof by cases: Consider several cases that are
*exhaustive*—i.e., that include all the possibilities. Prove the goal in each case. There are two ways to do this in Proof Designer. If you select a given of the form*P*_{1}∨*P*_{2}∨…∨*P*and give the Cases command in the Strategy menu, Proof Designer will break the proof into the cases determined by this given. You can also select any goal and give the Cases command, and Proof Designer will ask you to type in some statement_{n}*P*that will be used to distinguish the cases in the proof of this goal. In case 1, Proof Designer will assume that*P*is true, and in case 2 it will assume that*P*is false.