A bat moving at 10,ms^{-1} towards a wall sends a sound signal of 8000,Hz towards it. On reflection it hears a sound of frequency f.

Q: A bat moving at $10\,ms^{-1}$ towards a wall sends a sound signal of $8000\,Hz$ towards it. On reflection it hears a sound of frequency $f$. The value of $f$ in $Hz$ is close to (speed of sound $= 320\,ms^{-1}$ )

a Reflected frequency of sound reaching bat $ = \left[ {\frac{{V - \left( {{V_0}} \right)}}{{V - {V_s}}}} \right]f = \left[ {\frac{{V + {V_0}}}{{V - {V_s}}}} \right]f = \frac{{V + 10}}{{V - 10}}f$ $ = \left( {\frac{{320 + 10}}{{320 - 10}}} \right) \times 8000 = 8516Hz$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A bat moving at $10\,ms^{-1}$ towards a wall sends a sound signal of $8000\,Hz$ towards it. On reflection it hears a sound of frequency $f$. The value of $f$ in $Hz$ is close to (speed of sound $= 320\,ms^{-1}$ )

A$8516$
B$8258$
C$8424$
D$8000$

JEE MAIN 2015, Medium

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
Two persons $A$ and $B$, each carrying a source of sound of frequency $n$, are standing a few metres apart in a quiet field. $A$ starts moving towards $B$ with a speed $u$. If $v$ is the speed of sound, the number of beats heard per second by $A$ will be
View Solution
2
The musical interval between two tones of frequencies $320 Hz$ and $240 Hz$ is
View Solution
3
Velocity of sound in air is
View Solution
4
Consider two sound sources $S_1$ and $s_2$ having same frequency $100\,\,Hz$ and the observer $O$ located between them as shown in the fig. All the three are moving with same velocity in same direction. The beat frequency of the observer is .... $Hz$
View Solution
5
On a windless day, sound emanate isotropically from a point source. Rays of the sound waves emanated from a point source placed close to ground are shown in the figure. Consider horizontal wind towards the left blowing with constant velocity, which is uniform everywhere. In the following figures, rays of sound waves in presence of the wind are shown. Which one is the most correct representation?
View Solution
6
Two sources of sound $A$ and $B$ produces the wave of $350 Hz$, they vibrate in the same phase. The particle $P$ is vibrating under the influence of these two waves, if the amplitudes at the point $P$ produced by the two waves is $0.3 mm$ and $0.4 mm,$ then the resultant amplitude of the point $P$ will be when $AP -BP = 25 cm$ and the velocity of sound is $350 m/sec$ .... $mm$
View Solution
7
A wave represented by the equation $y_1 = a\,cos(Kx-\omega t)$ is superimposed with another wave to form a stationary wave such that the point $x = 0$ is a node. The equation for the other wave is
View Solution
8
A tuning fork vibrating with a sonometer having $20\,cm$ wire produces $5$ beats per sec. The beat frequency does not change if the length of the wire is changed to $21\,cm$. The frequency of the tuning fork must be ..... $Hz$
View Solution
9
If ${n_1},{n_2},{n_3}.........$ are the frequencies of segments of a stretched string, the frequency $n$ of the string is given by
View Solution
10
Which two of the given transverse waves will give stationary waves when get superimposed

${z_1} = a\cos (kx - \omega \,t)$.....$(A)$

${z_2} = a\cos (kx + \omega \,t)$.....$(B)$

${z_3} = a\cos (ky - \omega \,t)$..... $(C)$
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free