How do you convert ordinary frequency to angular frequency?

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To convert ordinary frequency to angular frequency, multiply the ordinary frequency by 2π, since there are 2π radians in one complete cycle. In the given problem, the angular frequency is identified as 25.0 rad/s, which directly relates to the oscillation frequency. The oscillation frequency can be calculated using the formula f = ω / (2π). Understanding this relationship clarifies how to approach the problem of finding the oscillation frequency from the provided angular frequency. This conversion is essential for solving oscillation problems in physics.
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Homework Statement


A 22 kg block oscillates back and forth along a straight line on a frictionless horizontal surface. Find the oscillation frequency, if its displacement from the origin is given by

x(t) = (22.0 cm)·cos((25.0 rad/s)t + π).

Homework Equations


angular frequency=sqrt(k/m)
period=2pisqrt(m/k)
period=1/frequency

The Attempt at a Solution


okay so from the equation they gave us i think the 22.0 cm (0.22m) is the amplitude of the oscillation, and 25.0 rad/s is the angular frequency, and the pi is the is the phase angle. So I am trying to solve for oscillation frequency but I am not sure how to start the problem. Any solid help with trying to start this problem would be appreciated, Thanks!
 
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How is angular frequency related to frequency of the oscillation?
 
Im honestly not sure how they are related, i feel like that is part of the reason why I am lost when it comes to this question. Any help on trying to understand there relationship?
 
Angular frequency tells you how many radians per second. How many radians are there in one complete oscillation?
 
There is 2pi radians in one oscillation isn't there?
 
michaeltozer13 said:
There is 2pi radians in one oscillation isn't there?
Exactly. So to convert ordinary frequency (##f##) in cycles/sec to angular frequency (##\omega##) in radians/sec, what would you have to do?
 

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