A roller skater carrying a portable stereo skates at constant speed an observer at rest. Which of the following accurately represents how are frequency perceived by the observer changes with time?

A train is moving towards a stationary observer. Which of the following curve best represents the frequency recived by observer f as a function of time?

A man is standing on a railway platform listening to the whistle of an engine, that passes the man at constant speed without stopping. If the engine passes the man at time t_(0) , how does the frequency f of the whistle as head by the man changes with time ?

A source of frequency 'f' is stationary and an obsercer starts moving towards it at t=0 with constant small acceleration. Then the variation of observed frequency 'f' registered by the observer with time is best represented as

On a straight road a thief, seeing a police car approaching at a constant speed v, runs away on a bike with constant accelration 'a'. Which of the following position time graphs best represent the case in which the theif is just nabbed ?

A small bar magnet is moved through a coil constant speed from one end to the other. Which of the following series of observations will be seen on the galvanometer G attached across the coil ? Three positions shown describe : (a) the magnet's entry (b) magnet is completely inside and (c) magnet's exit.

A wire loop is placed in a region of time varying magnetic field which is oriented orthogonally to the plane of the loop as shown in Fig. The graph shows the magnetic field variation as the function of time. Assume the positive emf is the one which drives a current in the clockwise direction and seen by the observer in the direction of B. Which of the following graphs best represents the induced emf as a function of time?

the frequency changes by 10 % as the source approaches a stationary observer with constant speed v_(s) . What would be the percentage change in frequency as the sources reaccedes the observer with the same speed ? Given , that v_(s)lt lt v (v= speed pf sound in air )

A train whistling at constant frequency is moving towards a station at a constant speed V. The train goes past a stationary observer on the station. The frequency n^(') of the sound as heard by the observer is plotted as a function of time t, figure. Identify the expected curve.

A train whistling at constant frequency is moving towards a station at a constant speed V. The train goes past a stationary observer on the station. The frequency n^(') of the sound as heard by the observer is plotted as a function of time t, figure. Identify the expected curve.

A sound wave of frequency f propagating through air with a velocity c , is reflected from a surface which is moving away from the source with a constant speed v . Find the frequency of the reflected wave, measured by the observer at the position of the source.