Maths for Computer Science PDF
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IIT Guwahati
Dr.Srinivasan Krishnaswamy
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Summary
This document provides notes on Maths for Computer Science, covering topics such as logic, proofs, and quantifiers. Specific topics include propositions, conditional statements, predicates, and quantifiers. The document appears to be lecture notes from an institute of technology in India.
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Maths for Computer Science Micro-Credit Program in Computer Science Dr.Srinivasan Krishnaswamy Daksh Gurukul - IIT Guwahati Cohort-2406 Session-N Logic and Proofs Daksh Gurukul - IIT Guwahati List of Topics Propositions and Logical Operators...
Maths for Computer Science Micro-Credit Program in Computer Science Dr.Srinivasan Krishnaswamy Daksh Gurukul - IIT Guwahati Cohort-2406 Session-N Logic and Proofs Daksh Gurukul - IIT Guwahati List of Topics Propositions and Logical Operators Conditional Statements Predicates and Quantifiers Proofs Daksh Gurukul - IIT Guwahati Proposition Proposition Statement that is either True or false Examples 1 New Delhi is the capital of India. 2 Mumbai is the capital of Sri Lanka 3 1+1=2 4 2+2=3 Daksh Gurukul - IIT Guwahati Proposition What is not a proposition Questions or Instructins. x +1=2 Daksh Gurukul - IIT Guwahati Logical Operators Logical Operators Helps create new propositions from propositions. ¬p - negation p ∨ q - disjunction p ∧ q - conjunction p ⊕ q - EX-OR Daksh Gurukul - IIT Guwahati Logical OPerators ∨ p q p∨q T T T T F T F T T F F F Daksh Gurukul - IIT Guwahati Logical OPerators ∧ p q p∧q T T T T F F F T F F F F Daksh Gurukul - IIT Guwahati Logical OPerators ⊕ p q p⊕q T T F T F T F T T F F F Daksh Gurukul - IIT Guwahati Conditional Statements If — then — p → q. p is the hypothesis/anticedent/premise. q is the conclusion/consequence. Daksh Gurukul - IIT Guwahati Conditional Statements → p q p→q T T T T F F F T T F F T Daksh Gurukul - IIT Guwahati Conditional Statements p→q Converse: q → p Contrapositive: ¬q → ¬p Inverse: ¬p → ¬q Biconditional:p ↔ q Daksh Gurukul - IIT Guwahati Conditional Statements ↔ p q p↔q T T T T F F F T F F F T Daksh Gurukul - IIT Guwahati Logical Equivalence Tautology: A statement that is always true. Contradiction: A statement that is always false A statement that is neither a tautology or a Contradiction is called a contingency. Two propositions p and q are said to be logically Equivalent if p ↔ q is a tautology. Daksh Gurukul - IIT Guwahati Logical Equivalences De Morgans laws ¬(p ∧ q) ≡ ¬p ∨ ¬q ¬(p ∨ q) ≡ ¬p ∧ ¬q Daksh Gurukul - IIT Guwahati Logical Equivalences Other logical equivalences p → q ≡ ¬plorq (Disjunction Equivalence) p ∨ (q ∧ r ) ↔ (p ∨ q) ∧ (p ∨ r ) (Distributivity) (p ∨ q) ∨ r ≡ p ∨ (q ∨ r (p ∧ q) ∧ r ≡ p ∧ (q ∧ r (Associativity). p ∨ (p ∧ q) ≡ p p ∧ (p ∨ q) ≡ p (Absorption) Daksh Gurukul - IIT Guwahati Satisfiability A proposition is satisfiable if it is true for some set of assignment of truth values. It is generally a difficult problem to check satisfiability. Daksh Gurukul - IIT Guwahati Predicates and Quantifiers Predicates x >3 x is the subject. > 3 is the predicate. When a value is given to a subject, the statement becomes a proposition. If p(x) denotes x > 3, P(4) is T and P(2) is F Daksh Gurukul - IIT Guwahati Predicates and Quantifiers Universal Quantifiers Universal Quantifier: Forall (∀) Universal Quantifier of the statement P(x), ∀xP(x), is the following statement, ”P(x) for all values of x in the domain” Can be used with restrictions. For example ∀x > 0P(x). A false value of P(x) is called a counterexample of the universal quantifier. Daksh Gurukul - IIT Guwahati Predicates and Quantifiers Existential Quantifiers There exists ∃, ∃xP(x): There exists some x such that P(x) is true. ∃x∀y ∀z(F (x, y ) ∧ F (x, z) ∧ (y ̸= z) → ¬F (y , z) ?? F (a, b) is the statement a and b are friends. Daksh Gurukul - IIT Guwahati Predicates and Quantifiers Existential Quantifiers There exists ∃, ∃xP(x): There exists some x such that P(x) is true. ∃x∀y ∀z(F (x, y ) ∧ F (x, z) ∧ (y ̸= z) → ¬F (y , z) ?? F (a, b) is the statement a and b are friends. There is someone whose no two friends are friends. Daksh Gurukul - IIT Guwahati Predicates and Quantifiers Logical Equivalence with Quantifiers ¬∀xP(x) ≡ ∃x¬P(x) ¬∃xP(x) ≡ ∀x¬P(x) These are De Morgan’s laws for Quantifiers Daksh Gurukul - IIT Guwahati Proofs What is a proof A sequence of arguments that establish that a statement is true Uses logical equivalences and Rules of Inference Three types Direct, Contraposition and Contradiction. Daksh Gurukul - IIT Guwahati Proofs Rules of Inference Rule of Inference Tautology Name p p ∧ (p → q) → q Modus Ponens p→q ∴q ¬q ¬q ∧ (p → q) → ¬p Modus Tollens p→q ∴ ¬p p→q (p → q) ∧ (q → r ) → (p → r ) Hypothetical Syllogism q→r ∴p→r Daksh Gurukul - IIT Guwahati Proofs Rules of Inference Rule of Inference Tautology Name p∨q (p ∨ q) ∧ ¬p → q Disjunctive syllogism ¬p ∴q p p → (p ∨ q) Addition ∴p∨q p∧q (p ∧ q) → p Simplification ∴p Daksh Gurukul - IIT Guwahati Proofs Rules of Inference Rule of Inference Tautology Name p ((p) ∧ (q)) → p ∧ q Conjunction q ∴p∧q p∨q (p ∨ q) ∧ (¬p ∨ r ) → (q ∨ r ) Resolution ¬p ∨ r ∴q∨r Daksh Gurukul - IIT Guwahati Proofs Types of Proofs Direct Proof: To prove p → q assume that p is true and show that q is always true. Contraposition Proof: To prove p → q assume ¬q and show that ¬p is always true. Contradiction Proof: To prove p, we show that p → (r ∧ ¬r ) for some statement r. Daksh Gurukul - IIT Guwahati