### At a Glance

The area of a regular pentagon looks about twice as a big as the pentangle star drawn within it. Is it?

### No Right Angle Here

Prove that the internal angle bisectors of a triangle will never be perpendicular to each other.

### A Sameness Surely

Triangle ABC has a right angle at C. ACRS and CBPQ are squares. ST and PU are perpendicular to AB produced. Show that ST + PU = AB

# Triangles and Petals

##### Stage: 4 Challenge Level:

Look at the equilateral triangle rotating around the equilateral triangle. It produces a flower with three petals:
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If each equilateral triangle has side length $r$, can you work out the perimeter of the flower's petals?

Now consider a flower made by the triangle rotating about a square with side length $r$ - what is the perimeter of the petals now?

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What is the perimeter when the centre of the flower is a regular pentagon, hexagon, heptagon...?
What can you say about the increase in perimeter as the number of sides of the centre shape increases?
Can you explain this increase?

What would be the perimeter of a flower whose centre is a regular $100$-sided polygon with side length $r$?

It may help to work in terms of $\pi$ throughout this problem.