3. A proposition is a declarative sentence (that is, a sentence
that declares a fact) that is either true or false, but not both
1 + 1 = 2 (true)
4 + 9 = 13 (true)
Islamabad is capital of Pakistan (true)
Karachi is the largest city of Pakistan (true)
100+9 = 111 (false)
Some sentences are not prepositions
Where is my class? (un decelerated sentence)
What is the time by your watch? (un decelerated sentence)
x + y = ? ( will be prepositions when value is assigned)
Z +w * r = p
PROPOSITIONS
4. We use letters to denote propositional variables (or statement
variables).
The truth value of a proposition is true, denoted by T, if it is a
true proposition.
The truth value of a proposition is false, denoted by F, if it is a
false proposition.
Many mathematical statements are constructed by combining
one or more propositions. They are called compound
propositions, are formed from existing propositions using
logical operators.
PROPOSITIONS
5. Definition: Let p be a proposition. The negation of p, denoted
by¬p (also denoted by p), is the statement “It is not the case
that p.”
The proposition ¬p is read “not p.” The truth value of the
negation of p, ¬p, is the opposite of the truth value of p.
Also denoted as “ ′ ”
Examples:
p := Sir PC is running Windows OS
¬p := sir PC is not running Windows OS
p := a + b = c
p := a + b ≠ c
NEGATION
The Truth Table for the Negation of a Proposition
p ¬p
T
F
F
T
6. Definition: Let p and q be propositions. The conjunction of p
and q, denoted by p ∧ q, is the proposition “p and q.” The
conjunction p ∧ q is true when both p and q are true and is
false otherwise.
Also known as UNION, AND, BIT WISE AND, AGREGATION
Denoted as ^ , &, AND
CONJUNCTION
The Truth Table for the conjunction of a Proposition
p q p ^ q
T T
T F
F T
F F
T
F
F
F
7. Definition: Let p and q be propositions. The disjunction of p
and q, denoted by p ∨ q, is the proposition “p or q.” The
disjunction p ∨ q is false when both p and q are false and is
true otherwise.
Also known as OR, BIT WISE OR, SEGREGATION
Denoted as v , || , OR
DISJUNCTION
The Truth Table for the conjunction of a Proposition
p q p v q
T T
T F
F T
F F
T
T
T
F
8. Definition: Let p and q be propositions. The exclusive or of p
and q, denoted by p ⊕ q, is the proposition that is true when
exactly one of p and q is true and is false otherwise.
Also known as ZORING
Denoted as XOR , Ex OR, ⊕
EXCLUSIVE OR
The Truth Table for the conjunction of a Proposition
p q p ⊕ q
T T
T F
F T
F F
F
T
T
F
9. Let p and q be propositions. The conditional statement p → q
is the proposition “if p, then q.” The conditional statement p
→ q is false when p is true and q is false, and true otherwise.
In the conditional statement p → q, p is called the hypothesis
(or antecedent or premise) and q is called the conclusion (or
consequence).
Denoted by
CONDITIONAL STATEMENT
The Truth Table for the conjunction of a Proposition
p q p → q
T T
T F
F T
F F
T
F
T
T
10. The proposition q → p is called the converse of p → q.
The converse, q → p, has no same truth value as p → q for all
cases.
Formed from conditional statement.
CONVERSE
11. The contrapositive of p → q is the proposition ¬q →¬p.
only the contrapositive always has the same truth value as p
→ q.
The contrapositive is false only when ¬p is false and ¬q is
true.
Formed from conditional statement.
CONTRAPOSITIVE
The Truth Table for the CONTRAPOSITIVE of a Proposition
p q ¬p ¬q ¬p → ¬q
T T F F
T F F T
F T T F
F F T T
T
T
F
T
12. Formed from conditional statement.
The proposition ¬p →¬q is called the inverse of p → q.
The converse, q → p, has no same truth value as p → q for all
cases.
INVERSE
13. Let p and q be propositions. The biconditional statement p ↔
q is the proposition “p if and only if q.” The biconditional
statement p ↔ q is true when p and q have the same truth
values, and is false otherwise.
Biconditional statements are also called bi-implications.
BICONDITIONAL
The Truth Table for the CONTRAPOSITIVE of a Proposition
q p q ↔ p
T T
T F
F T
F F
T
F
F
T
14. Definition: When more that one above defined preposition
logic combines it is called as compound preposition.
Example:
(p^q)v(p’)
(p ⊕ q) ^ (r v s)
COMPOUND PROPOSITIONS
15. (p ∨¬q) → (p ∧ q)
COMPOUND PROPOSITIONS (TRUTH
TABLE)
The Truth Table of (p ∨¬q) → (p ∧ q)
p q ¬q p ∨¬q p ∧ q (p ∨¬q) → (p ∧ q)
T
T
F
F
T
F
T
F
F
T
F
T
T
T
F
T
T
F
F
F
T
F
T
F
16. Precedence of Logical Operators.
Operator Precedence
¬ 1
^ 2
v 3
→ 4
↔ 5
XOR 6
PRECEDENCE OF LOGICAL OPERATORS
17. Computers represent information using bits
A bit is a symbol with two possible values, namely, 0 (zero)
and 1 (one).
A bit can be used to represent a truth value, because there
are two truth values, namely, true and false.
1 bit to represent true and a 0 bit to represent false. That is,
1 represents T (true), 0 represents F (false).
A variable is called a Boolean variable if its value is either
true or false. Consequently, a Boolean variable can be
represented using a bit.
LOGIC AND BIT OPERATIONS
Truth Value Bit
T 1
F 0
18. Computer bit operations correspond to the logical
connectives.
By replacing true by a one and false by a zero in the truth
tables for the operators ∧ (AND) , ∨ (OR) , and ⊕ (XOR) , the
tables shown for the corresponding bit operations are
obtained.
LOGIC AND BIT OPERATIONS
Table for the Bit Operators OR, AND, and XOR.
p q p ^ q p v q p XOR q
0
0
1
1
0
1
0
1
0
0
0
1
0
1
1
1
0
1
1
0
