Question #931da

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Question #931da

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Answer 1 · 2016-01-18T23:09:09

The standard for this type of problem is the universal wave equation, $v = f λ$ $v=f lamda$ , except for this particular question there is a shortcut.

Explanation:

Bear with me, I will be brief:
Speed is distance over time, so time is distance over speed:

$t = \frac{d}{v}$ $t=d/v$

in the case of a wave, the distance travelled is the length of the wave, or the wavelength, $λ$ $lamda$ .
so

$t = \frac{λ}{v}$ $t=lamda/v$

and from the universal wave equation, $v = f λ$ $v=f lamda$
so

$t = \frac{λ}{f λ}$ $t=lamda/(f lamda)$
and
$t=cancel lamda/(f cancel lamda) = 1/f$

Which, if you stop to thing about it makes perfect sense, since the time for one wave to pass by is the period of the wave $T$ , and

$T=1/f$

So the only value you actually need to solve this is the frequency!

Answer 2 · 2016-01-18T23:11:39

The time taken for a wave to pass a point is the period, $T (s)$ , which is simply the inverse of the frequency, $f (Hz = s^-1)$ . In this case, $T=1/f = 1/300 = 0.00333 s$

Explanation:

Waves have three characteristics: velocity $v (ms^-1)$ , wavelength $lambda (m)$ and frequency $f (Hz)$ .

These characteristics are related by the formula: $v=flambda$

The unit of frequency, hertz $Hz$ is 'per second': number of waves passing a point each second, and is $s^-1$ in SI units.

In this question, we want the inverse of the frequency. If 300 waves pass a point in 1 second, how many seconds does it take for 1 wave to pass the same point? The answer is $1/f=1/300=0.00333 s$ .

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Question #931da

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