# De Morgan's Laws (Logic)/Conjunction/Formulation 2/Proof 1

## Theorem

$\vdash \paren {p \land q} \iff \paren {\neg \paren {\neg p \lor \neg q} }$

## Proof

By the tableau method of natural deduction:

$\vdash \paren {p \land q} \iff \paren {\neg \paren {\neg p \lor \neg q} }$
Line Pool Formula Rule Depends upon Notes
1 1 $p \land q$ Assumption (None)
2 1 $\neg \paren {\neg p \lor \neg q}$ Sequent Introduction 1 De Morgan's Laws (Logic): Conjunction: Formulation 1
3 $\paren {p \land q} \implies \paren {\neg \paren {\neg p \lor \neg q} }$ Rule of Implication: $\implies \II$ 1 – 2 Assumption 1 has been discharged
4 4 $\neg \paren {\neg p \lor \neg q}$ Assumption (None)
5 4 $p \land q$ Sequent Introduction 4 De Morgan's Laws (Logic): Conjunction: Formulation 1
6 $\paren {\neg \paren {\neg p \lor \neg q} } \implies \paren {p \land q}$ Rule of Implication: $\implies \II$ 4 – 5 Assumption 4 has been discharged
7 $\paren {p \land q} \iff \paren {\neg \paren {\neg p \lor \neg q} }$ Biconditional Introduction: $\iff \II$ 3, 6

$\blacksquare$