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A lifeguard on a beach observes that waves have a speed of 2.60 m/s and a distance of 2.50 m between wave crests. What is the period of the wave motion?

User Chris Lindsey
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1 Answer

13 votes
13 votes

Period =0.96 s

Step-by-step explanation

the wave velocity is given by


\begin{gathered} v=(\lambda)/(T) \\ \text{where} \\ T\text{ is the period and }\lambda\text{ is }the\text{ distance betwe}en\text{ }wave\text{ crest} \end{gathered}

hence

Step 1

Let


\begin{gathered} v=260\text{ m/s} \\ \lambda=2.50\text{ m} \end{gathered}

now, replace


\begin{gathered} v=(\lambda)/(T) \\ 260((m)/(s))=\frac{2.50\text{ m}}{T} \\ \text{solve for T} \\ T=\frac{2.50\text{ m}}{2.60((m)/(s))}=0.96s^{} \\ T=0.96\text{ s} \end{gathered}

so, the answer is 0.96 s

I hope this helps you

User Rotem Tal
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