How do I find the area inside a cardioid?

1 Answer
Oct 25, 2014

The polar equation of a cardioid is

#r=2a(1+cos theta)#,

which looks like this with a=1:

What a polar equation of cardioid looks like in graph using  a=1.

So, the area inside a cardioid can be found by

#A=int_0^{2pi} int_0^{2a(1+cos theta)} rdrd theta#

#=int_0^{2pi}[r^2/2]_0^{2a(1+cos theta)}d theta#

#=int_0^{2pi}{[2a(1+cos theta)]^2}/2 d theta#

#=2a^2 int_0^{2pi}(1+2cos theta+cos^2theta)d theta#

#=2a^2 int_0^{2pi}[1+2cos theta+1/2(1+cos2theta)]d theta#

#=2a^2[theta+2sin theta+1/2(theta+{sin2theta}/2)]_0^{2pi}#

#=2a^2[2pi+1/2(2pi)]=6pi a^2#


I hope that this was helpful.