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#Math #Trig #Algebra
Question
Show there are n petals in a rose curve with odd n and 2n petals in a rose curve with even n.
Solution
WLOG the rose curve has the form r = \cos n\theta.
Then there are 2 cases to get a maximum point on a petal: either \cos n\theta = 1 or \cos( n(\theta + \pi)) = -1
Case 1
\cos n\theta = 1
For all integers i:
n\theta = 2i\pi
\theta = \frac {2i\pi} n
Case 2
\cos( n(\theta + \pi)) = -1
For any arbitrary integer i:
n(\theta + \pi) = 2i\pi + 1
\theta = \frac {(2i + 1)\pi - n\pi} n
For \theta \in [0, 2\pi) both sequences create
Even Case
Factor out \frac \pi n from both sides. Case 1 has \frac \pi n multiplied by an even factor, while case 2 has \frac \pi n multiplied by an odd factor. Therefore the sequences are unique, creating 2n unique petals.
Odd Case
Take case 2:
\theta = \frac {(2i + 1)\pi - n\pi} n
\theta = \frac {2i\pi + (1 - n)\pi} n
Since n is odd, 1 - n is even, and therefore the numerator is an even factor of \pi.
\theta = \frac {2i\pi} n
Therefore case 2 produces the same \theta as case 1, resulting in n petals.