A conveyor belt moves to the right with speed v = 300 m/ min . A pieman puts pies on the belt at a 30 m /min towards a receiver at the other end. The frequency with which they are received by the stationary receiver is

A conveyor belt moves to the right with speed upsilon = 300 m//s . A very fast pieman puts pies on the belt at a rate of 20 per minute and they are recived at the other end by a pieeater. (a) If the pieman is stationary find the spacing x betweenthe pies and the frequency with which they are recived by the stationary pieeater. (b) the pieman now walks with speed 30 n//min towards the reciver while continuing to put pies on the recived by the stationary pieeater.

A conveyor belt is moving horizontally with a uniform velocity of 2 m/sec. Material is dropped at one end at the rate of 5 kg/sec and discharged at the other end. Neglecting the friction, the power required to move the belt is-

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 emitting sound at frequency 4000 Hz, is moving along the Y-axis with a speed of 22 m s^-1 . A listener is situated on the ground at the position (660 m, 0). Find the frequency of the sound received by the listener at the instant the source crosses the origin. Speed of sound in air = 330 m s^-1 .

A rocket is going towards moon with a speed v . The astronaut in the rocket sends signals of frequency v towards the moon and receives them back on reflection from the moon. What will be the frequency of the signal received by the astronaut (Take v lt lt c )

Two train whistles A and B each have a frequency of 220 Hz. A is stationary and B is moving toward the right (away from A) at a speed of 35 m//s . A listener between the two trains is moving towards the right with a speed of 15 m//s . No wind is blowing. What is frequency from A as heard by the listener

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

Two train whistles A and B each have a frequency of 220 Hz. A is stationary and B is moving toward the right (away from A) at a speed of 35 m//s . A listener between the two trains is moving towards the right with a speed of 15 m//s . No wind is blowing. What is the frequency from B as heard by the listener?