388,493 views
10 votes
10 votes
8. Find the perimeter of CDEF. Assume that all segments that appear to be tangent.

8. Find the perimeter of CDEF. Assume that all segments that appear to be tangent-example-1
User Matthew Pateman
by
2.7k points

1 Answer

19 votes
19 votes

In order to solve tthis problem we must apply the "tangent quadrilateral theorem" for inscribed circles.

The theorem states the following:


\bar{AB}+\bar{CD}=\bar{BC}+\bar{DA}

In our case we have:

From the question we see that 7.4 is the radius of the circle. So the sides of the quadrilateral are:

CF = 13

FE = 12.1

ED = 7.4 + 14 = 21.4

CD = 7.4 + x

As we see, we don't know the value of x. But we can apply the "tangent quadrilateral theorem" for inscribed circles.

Which says in this case that:


\begin{gathered} CF+ED=CD+FE \\ 13+21.4=(7.4+x)+12.1 \\ 34.4=x+19.5 \\ x=34.4-19.5=14.9 \end{gathered}

Now we can calculate the perimeter of CDEF summing the sides:


\text{CDEF}=CD+ED+FE+CF=(7.4+14.9)+21.4+12.1+13=68.8

8. Find the perimeter of CDEF. Assume that all segments that appear to be tangent-example-1
8. Find the perimeter of CDEF. Assume that all segments that appear to be tangent-example-2
User Sunriser
by
3.2k points
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.