Biconditional iff Disjunction implies Conjunction/Formulation 2

Theorem

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

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

$\blacksquare$