Sine of Angle of Triangle by Semiperimeter

Theorem
Let $\triangle ABC$ be a triangle whose sides $a, b, c$ are such that $a$ is opposite $A$, $b$ is opposite $B$ and $c$ is opposite $C$.

Then:
 * $\sin A = \dfrac 2 {bc} \sqrt {s \left({s - a}\right) \left({s - b}\right) \left({s - c}\right)}$

where $\sin$ denotes sine and $s$ is the semiperimeter: $s = \dfrac {a + b + c} 2$.

Proof
Let $Q$ be the area of $\triangle ABC$.

From Area of Triangle in Terms of Two Sides and Angle:
 * $Q = \dfrac {b c \sin A} 2$

From Heron's Formula:
 * $Q = \sqrt {s \left({s - a}\right) \left({s - b}\right) \left({s - c}\right)}$

Equating the two:
 * $\dfrac {b c \sin A} 2 = \sqrt {s \left({s - a}\right) \left({s - b}\right) \left({s - c}\right)}$

from which follows the result.