Definition:Conjunction

Definition
Conjunction is a binary connective written symbolically as $$p \and q$$ whose behaviour is as follows:


 * $$p \and q$$

is defined as:
 * $$p$$ is true and $$q$$ is true.

This is called the conjunction of $$p$$ and $$q$$.

The statements $$p$$ and $$q$$ are known as the conjuncts.

$$p \and q$$ is voiced:
 * $$p$$ and $$q$$.

Boolean Interpretation
From the above, we see that the boolean interpretations for $$\mathbf A \and \mathbf B$$ under the model $$\mathcal M$$ are:


 * $$\left({\mathbf A \and \mathbf B}\right)_{\mathcal M} = \begin{cases}

T & : \mathbf A_{\mathcal M} = T \text{ and } \mathbf B_{\mathcal M} = T \\ F & : \text {otherwise} \end{cases}$$

Complement
The complement of $$\and$$ is the NAND operator.

Truth Function
The conjunction connective defines the truth function $$f^\and$$ as follows:

$$ $$ $$ $$

Truth Table
The truth table of $$p \and q$$ and its complement is as follows:

$$\begin{array}{|cc||c|c|} \hline p & q & p \and q & p \uparrow q \\ \hline F & F & F & T \\ F & T & F & T \\ T & F & F & T \\ T & T & T & F \\ \hline \end{array}$$

Semantics of the Conjunction
The conjunction is used to symbolise any statement in natural language such that two substatements are held to be true simultaneously.

Thus it is also used to symbolise the concept of but.

Thus it can be also interpreted as:
 * $$p$$ but $$q$$
 * $$p$$; however, $$q$$
 * $$p$$; on the other hand $$q$$
 * Not only $$p$$ but also $$q$$
 * Despite $$p$$, $$q$$

Notational Variants
Various symbols are encountered that denote the concept of conjunction: