If you write down the equation of motion then you can't be "wrong". Who told you you have used the wrong method? If your equation of motion is of the basic form
m d2x/dt2 = -ax
a is the shrunk down version of the force /distance relationship
then that's all you need.
Actually solving the equation can be found all over the place and ω just drops out in your lap.
PS your handwriting is about as hard to read as mine is but your handwritten stuff looks about right.[/QUOTE
I was told that I couldn’t equal my acceleration to gravity since it would mean that gravity is changing over time which is not true. I did that on the top left corner. I wrote that the second derivative of angular position is equal to angular acceleration which I equaled it to gravity. Hence, proceded to answer the question based on this assumption.
->Haha, actually, i do need to improve my hand writing a bit.