91Ó°ÊÓ

1. Frequency of a whistle is, f = 540Hz
2. Angular speed of the whistle is,$\mathrm{Ó\neg }=15.0rad/s$
3. Radius of circle is, R = 60.0cm or 0.60m.
4. The listener is at rest with respect to the center of the circle, i.e., v_D = 0

We can find the velocity of the source from its angular speed and radius of the circle. By inserting all the values in the formulae for the lowest and highest frequency heard by the listener according to the Doppler Effect, we can find their values.

Formulae:

The transverse speed of a body in motion,

$\mathit{v}\mathbf{=}\mathit{R}\mathit{Ó\neg }$ …(¾±)

The lowest frequency as per the Doppler Effect,

role="math" localid="1661745748258" $\mathit{f}\mathbf{\text{'}}\mathbf{=}\mathit{f}\frac{(v+v_D)}{(v+v_s)}$ …(¾±¾±)

The highest frequency as per the Doppler Effect,

$\mathit{f}\mathbf{\text{'}}\mathbf{=}\mathit{f}\frac{(v+v_D)}{(v-v_s)}$ …(¾±¾±¾±)

Speed of the whistle using equation (i) can be given as:

$\begin{array}{rcl}{v}_s& =& \left(0.60m\right)\left(15rad/s\right)\\ & =& 9m/s\end{array}$

Speed of the sound is given as:

v = 343m/s

According to the Doppler Effect, the lowest frequency heard by the listener using equation (ii) is given as:

role="math" localid="1661746065085" width="232" height="91">f'=540Hz×343m/s+0343m/s+9m/s=526.19Hz□526Hz

Therefore, the lowest frequency heard by a listener is 526Hz.

According to the Doppler Effect, the highest frequency heard by the listener using equation (iii) is given as:

$\begin{array}{rcl}f\text{'}& =& 540Hz×\frac{\left(343m/s+0\right)}{\left(343m/s-9m/s\right)}\\ & =& 554.6Hz\\ & & □555Hz\end{array}$

Therefore, the highest frequency heard by the listener is, 555Hz.