A source `S` of acoustic wave of the frequency `v_0=1700Hz` and a receiver `R` are located at the same point. At the instant `t=0`, the source start from rest to move away from the receiver with a constant acceleration `omega`. The velocity of sound in air is `v=340(m)/(s)`.
If `omega=10(m)/(s^2)` for 10s and then `omega=0` for `tgt10s`, the apparent frequency recorded by the receiver at `t=15s`

A source S of acoustic wave of the frequency v_0=1700Hz and a receiver R are located at the same point. At the instant t=0 , the source start from rest to move away from the receiver with a constant acceleration omega . The velocity of sound in air is v=340(m)/(s) . Q. If omega=10(m)/(s^2) , the apparent frequency that will be recorded by the stationary receiver at t=10s will be

A source of sonic oscillations with frequency v_(0)=1700Hz and a receiver are located at the same point. At the moment t=0 the source starts receding from the receiver with constant acceleration w=10.0m//s^(2) . Assuing the velocity of sound to be equal to v=340 m//s , find the oscillation frequency registered by the stationary receiver t=10.0s after the start of motion.

A source of sonic oscillations of frequency n_(0) = 2000 Hz and a receiver are located at the same point. At the instant t = 0 the source starts receding form the receiver with constant acceleration a = 10 m s^(-2) . Find the frequency registered by the reciver at the instant t = 10 s . Velocity of sound, v = 340 m//s

A source of sonic oscillations with frequency n=1700Hz and a receiver are located on the same normal to a wall. Both the source and receiver are stationary, and the wall recedes from the source with velocity u=6.0(m)/(s) . Find the beat frequency registered by the receiver. The velocity of sound is v=340(m)/(s) .

A source of sonic oscillations of frequency n_(0) = 2000 Hz and a receiver are located on the same normal to a wall. Both the source and the receiver are stationary and the wall recedes from the source with a velocity u = 10 cm//s . Find the beat frequency registered by the receiver. The velocity of sound is v = 340 m//s

A listener is at rest and a police siren is moving away from the listerner at 60m/s. what frequency does the listerner hear given that the velocity of sound in air is 340m/s and frequency os siren is 500Hz?

A sound source S, emitting a sound of frequency 400 Hz and a receiver R of mass m are at the same point. R is performing SHM with the help of a spring of force constant K. At a time t = 0, R is at the mean position and moving towards the right, as shown. At the same time, the source starts moving away from R with some acceleration a. The frequency registered by the receiver at a time t = 10 s is 250 Hz. What is the time (in seconds) at which the corresponding registered frequency of 250 Hz was emitted by the source? [Given that (m)/(K)=(25)/(pi^(2)) and amplitude of oscillation = (100)/(pi) m, V_("sound") = 320 m s^(-1)]