--- Logica Matematica Tablas De Verdad Ejercicios Resueltos May 2026

| ( p ) | ( q ) | ( r ) | ( p \lor q ) | ( \neg r ) | ( (p \lor q) \to \neg r ) | |--------|--------|--------|----------------|--------------|-----------------------------| | V | V | V | V | F | F | | V | V | F | V | V | V | | V | F | V | V | F | F | | V | F | F | V | V | V | | F | V | V | V | F | F | | F | V | F | V | V | V | | F | F | V | F | F | V (F → F = V) | | F | F | F | F | V | V (F → V = V) | Problem: Show that ( (p \to q) \lor (q \to p) ) is a tautology (always true).

| ( p ) | ( \neg p ) | ( p \land \neg p ) | |--------|--------------|----------------------| | V | F | F | | F | V | F |

| ( p ) | ( \neg p ) | |--------|--------------| | V | F | | F | V | Problem: Build the truth table for ( p \land q ). --- Logica Matematica Tablas De Verdad Ejercicios Resueltos

| ( p ) | ( q ) | ( p \land q ) | ( \neg(p \land q) ) | ( \neg p ) | ( \neg q ) | ( \neg p \lor \neg q ) | |--------|--------|----------------|-----------------------|--------------|--------------|--------------------------| | V | V | V | F | F | F | F | | V | F | F | V | F | V | V | | F | V | F | V | V | F | V | | F | F | F | V | V | V | V |

( p, q, r, p \lor q, \neg r, (p \lor q) \to \neg r ). | ( p ) | ( q )

| ( p ) | ( q ) | ( p \leftrightarrow q ) | |--------|--------|---------------------------| | V | V | V | | V | F | F | | F | V | F | | F | F | V | Problem: Build the truth table for ( (p \lor q) \to \neg r ).

| ( p ) | ( q ) | ( p \land q ) | |--------|--------|----------------| | V | V | V | | V | F | F | | F | V | F | | F | F | F | Problem: Build the truth table for ( p \lor q ). Exercise 5: Biconditional Problem: Build the truth table

| ( p ) | ( q ) | ( p \to q ) | |--------|--------|----------------| | V | V | V | | V | F | F | | F | V | V | | F | F | V | An implication is only false when the antecedent ((p)) is true and the consequent ((q)) is false. Exercise 5: Biconditional Problem: Build the truth table for ( p \leftrightarrow q ).