Understanding Frequency and Waves in Physics and Engineering

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Frequency is defined as the inverse of the period, with the relationship f = 1/p. In wave equations like sin(βt), β is often incorrectly referred to as frequency, while it actually represents angular frequency. The correct frequency is calculated as f = β/2π, indicating that many publications may omit the 2π factor. While precision is important in technical contexts, in casual discussions, the distinction between angular frequency and frequency can be overlooked since they are proportional. Understanding this difference is crucial for accurate communication in physics and engineering.
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Let ##f## denote frequency and ##p## denote period. Then ##f=1/p##. Given some wave, say ##\sin( \beta t)##, most publications refer to ##\beta## as the frequency. But we know ##p=2\pi/\beta\implies f=\beta/2\pi##. Do most physicists and engineers omit the ##2\pi## part?

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##\beta## is called the angular frequency. It should not be referred to as frequency which, as you show above, is the angular frequency divided by ##2\pi##.

However, when precision is not needed, careful use of these words can safely be dropped. For instance if one is just talking about increasing frequency, it doesn't matter whether one is referring to ##\beta## or ##f## because they are proportional and one increases when the other does.
 
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