Using the figure below, we will prove the Sine and Cosine Addition formulas for the two angles x and y.
Note
that 
are all right triangles.
The sine addition formula states that
sin(x+y) = cos(x)sin(y) + sin(x)cos(y).
Let's see if we can prove this is true using the above Figure 1.
sin(x+y)
= 
.
Since EDCF is a square, then segment EF is congruent to segment DC so...
sin
(x+y) = 
.
and
, then
sin(x+y)
= 
.
Finally,
since 
, we are left with sin(x+y) = siny cosx + cosy sinx.
Therefore, we have proved the sine addition formula does work!
Note
again that are all right triangles.
The cosine addition formula states that
cos(x+y) = cos(x)cos(y) - sin(x)sin(y).
cos(x+y)
= 
.
Again, since EDCF is a square, then segment FC is congruent to segment ED, so substiting in for this, we get
cos(x+y)
= 
.
Since
, we get
cos(x+y)
= 
.
And
since 
, we are left with
cos(x+y) = cosycosx - sinysinx.
We have proved how the sine and cosine addition formulas work!