truth functions relationships a function is a relation that links members of sets. the set of all x...

Truth Functions

Relationships

• A function is a relation that links members of sets.

• The set of all x which are in relation R with some y is called the

domain of R.

• The set of all y such that, for some x, x is in relation R with y is

called the range of R.

Functions

• A function is a special kind of relation

• It’s a relation where every object, a,

from the domain, is related to precisely

one object in the range, namely, to the

value of the function at a.

Functions

RangeDomain

• A function is a rule for linking members of the domain to

members of the range

• It links them in such a way that for every member of the domain

there is a unique member of the range to which it connects.

• If you know the point at which you start, you know where you

end up.

Functions

RangeDomain

• But what about the links that go from more than one member of

the domain to a single member of the range?

• Is this ok?

• Yes! Because even though in each of these cases we start at

different places we still know where we end up!

Not a Function!

RangeDomain

• But what if it were like this, with links from one member of the

domain connecting to more than one member of the range?

• Is this ok?

• No! Because if it’s like this, then knowing where we start doesn’t

tell us where we’re going to end up!

The Black Box

DomainRange

One at atime, puleeze So we can think of a function as a black

box, a machine that takes members of the domain as inputs and pumps out their values under that function

f

Functions & Other Relations

f

If it’s not a function, it’s like a gumball machine: you put in your money but you don’t know exactly what will come out.

If it’s not a function, it’s like a gumball machine: you put in your money but you don’t know exactly what will come out.

If it’s a function, if you know what the function is, and know what goes in, then you know exactly what will come out.

If it’s a function, if you know what the function is, and know what goes in, then you know exactly what will come out.

?

What members?

• The members of the domain

and range of functions can be

anything you please:

• They can be numbers…

• Or they can be truth

values!

FunctionlandEveryone Welcome!

f (x) = x + 1

+11

1 goes in…

f (x) = x + 1

+1 2

2 comes out…

f (x) = x + 1

+12

2 goes in…

f (x) = x + 1

+1 3

3 comes out…

f (x) = x + 1

+1714

714 goes in…

f (x) = x + 1

+1 715

715 comes out…

Boring.

Functions are predictable!

Truth Functions

fT T

F F

Truth functions take truth values as inputs and output truth values.

The 5 connectives of propositional logic represent 5 different truth functions

A function is as a function does

+1 ^2

~

What makes a function the function it is (rather than some other function) is the characteristic way in which it links input and output. We can display this by showing tables of values for functions.

Some functionshave more than

one input

f (x) = x2^2

1 1

2 4

3 9

4 16

x f (x)

f (p) = ~p~p f (p)

T F

F T

Each of the truth functions represented by the 5 connectives of propositional logic has a characteristic truth table that makes it the function it is.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Truth tables for the connectives give us the meanings of “not,” “and,” “or,” “if-then” and “if and only if” in the language of propositional logic--which may not be exactly the same as their meanings in ordinary English.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

p and q are variables standing for sentences.

The columns underneath them represent every possible combination of truth values they may have.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

The other columns represent the values of the truth functions at every given combination of truth values

Non-Truth Functional Connectives

?

All the connectives of propositional logic are truth functional.

But some of the connectives of ordinary English are not truth functional.

These include (among others) English connectives that concern certain mental states and the ordinary English if-then.

Non-Truth Functional Connectives

Sambelieves

that…

China is more populous than India.

Sam believes that China is more populous than India.

T

?What do Iknow?!?!!

p

Sam believes

that p

T ?

F ?

Non-Truth Functional Connectives

The moon is made out of green cheese.

Sam believes that the moon is made out of green cheese.

Duh, mebbe…dunno.

p

Sam believes

that p

T ?

F ?

Sambelieves

that…

F

?

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Negation reverses truth value:

False TrueTrue False

Easy. Justlike English.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Conjunction is true when both conjuncts are true--otherwise false

OK.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Disjunction is false when both disjuncts are false--otherwise true

It’s theinclusive or.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Biconditional is true when both sides have same truth value--otherwise false.

It expresses logical equivalence and so tests for sameness of truth value

New one on me, but OK.

Truth Tables for the Connectives

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

Conditional is false when antecedent is true and consequent false--otherwise true

Huh??!?You gotta be

kidding!

“Paradoxes” of Material Implicationp ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

This means that whenever the antecedent is false the whole conditional is true!

“If the moon is green cheese then 2+2 = 4.” - TRUE

“If the moon is green cheese then 2+2 = 5.” - TRUE

“If the moon is green cheese then the moon is not green cheese.” - TRUE

“Paradoxes” of Material Implicationp ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

It also means that whenever the consequent is true the whole conditional is true!

“If the moon is green cheese then 2+2 = 4.” - TRUE

“If the moon is not green cheese then 2+2 = 4.” - TRUE

“If 2+2 = 5 then 2+2 = 4.” - TRUE

The conditional of propositional logic is defined by its characteristic truth table--and we can define symbols any way we please.

It just isn’t a perfect translation of the ordinary English if-then because…

The English if-then is not truth-functional!

The conditional of logic is a black box but the IF-THEN of ordinary English is a gum machine!

Computing Truth Values

• Because the connectives of propositional logic (unlike

some of the connectives of ordinary English) are truth

functional we can compute the truth values of whole

sentences in propositional logic if we know the truth

values of their parts.

• And sometimes we don’t even need to know the truth

values of all their parts to do this.

• And sometimes we don’t even need to know the truth

values of any of their parts!

Computing Truth Value

• We want to compute the truth value of this sentence given truth values assigned to its constituent sentence letters.

• The truth value for the whole sentence will go in a circle under its main connective.

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)

Computing Truth Value

• We start by assigning truth values to the sentence letters.

• How do we know what truth values to assign?

• IT TELLS YOU IN THE DIRECTIONS FOR THE EXERCISE!!!

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)TFT F

Computing Truth Value

• Compound sentences have parts, or subformulas, that are themselves sentences.• The truth value for each subformula goes underneath its main connective--or if it’s

just a sentence letter, underneath it.

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)Truth valuefor “A” goes

here

Truth value for“Z B”goes

here

Computing Truth Value

• Then, working from smaller parts to larger parts, we assign truth values to more subformulas referring to the truth tables.

• “A • Y” is false because TRUE-FALSE for conjunction is FALSE, as the truth table tells us.

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)TFT FF

Computing Truth Value

• “Z B” is true because FALSE-TRUE for disjunction is TRUE, as the truth table tells us.

• We don’t care about the truth values for A and Y anymore because we’ve used them to compute another truth value.

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)TFT FF T

Computing Truth Value

• Now we have truth values for both antecedent and consequent of the whole conditional so we compute the truth value for the whole sentence.

• FALSE-TRUE for conditional is TRUE so the sentence is TRUE.

p ~p

T F

F T

p q p q p q p q p q

T T T T T T

T F F T F F

F T F T T F

F F F F T T

(A Y) (Z B)TFT FF TT

What’s this exercise for?

• This is a preliminary exercise for doing truth tables for

compound sentences.

• When you compute the truth value of a compound sentence

given the truth value of its constituent sentence letters you’re

doing one row of a truth table.

• Each row of a truth table represents a truth value assignment for

its constituent sentence letters.

• A complete truth table gives truth values for a sentence in every

possible truth value assignment.

To be continued…To be continued…