Definition:Biconditional/Semantics of Biconditional

Definition
The concept of the biconditional has been defined such that $p \iff q$ means:
 * If $p$ is true then $q$ is true, and if $q$ is true then $p$ is true.

$p \iff q$ can be considered as a shorthand to replace the use of the longer and more unwieldy expression involving two conditionals and a conjunction.

If we refer to ways of expressing the conditional, we see that:


 * $q \implies p$ can be interpreted as $p$ is true if $q$ is true, and


 * $p \implies q$ can be interpreted as $p$ is true only if $q$ is true.

Thus we arrive at the usual way of reading $p \iff q$ which is: $p$ is true if and only if $q$ is true.

This can also be said as:


 * The truth value of $p$ is equivalent to the truth value of $q$.


 * $p$ is equivalent to $q$.


 * $p$ and $q$ are equivalent.


 * $p$ and $q$ are coimplicant.


 * $p$ and $q$ are logically equivalent.


 * $p$ and $q$ are materially equivalent.


 * $p$ is true exactly when $q$ is true.


 * $p$ is true iff $q$ is true. This is another convenient and useful (if informal) shorthand which is catching on in the mathematical community.