Yes it does say that. Sorry I thought I had put that in the original post, but I guess it didn't copy correctly from the homework site. It says \theta0=1.1 and the original equation is \theta(t)=\theta0e\betat
Thank you.
I honestly have no idea what \theta = 1.1 rad means. I assumed that it was the value that would be substituted into equation, resulting in \theta(t)=1.1e(1/2)t. Should I then take the derivative from there?
Homework Statement
The angular position of an object that rotates about a fixed axis is given by \theta(t) = \vartheta e^\betat,
where \beta= 2 s^−1, \theta = 1.1 rad, and t is in seconds.
What is the magnitude of the total linear acceleration at t = 0 of a point on the object that is 9.2 cm...