Part 1
A siren placed at a railway platform is emitting sound of frequency 5kHz. A passenger sitting in a moving train A records a frequency of 5.5kHz while the train approaches the siren. During his return journey in a different train B he records a frequency of 6.0kHz while approaching the same siren. the ratio the velocity of train B to that of train A is
31
Oct
A siren placed at a railway platform is emitting sound of frequency 5kHz. A passenger sitting in a moving train A records a frequency of 5.5kHz while the train approaches the siren. During his return journey in a different train B he records a frequency of 6.0kHz while approaching the same siren. the ratio the [...]
A train moves towards a stationary observer with speed 34m/s. The train sounds a whistle and its frequency registered by the observer is f1. If the train’s speed is reduced to 17m/s, the frequency registered is f2. If the speed of sound of 340m/s, then the ratio f1/f2is
31
Oct
A train moves towards a stationary observer with speed 34m/s. The train sounds a whistle and its frequency registered by the observer is f1. If the train’s speed is reduced to 17m/s, the frequency registered is f2. If the speed of sound of 340m/s, then the ratio f1/f2is A train moves towards a stationary observer [...]
A police car moving at 22m/s, chases motorcyclist. The police man sounds his horn at 176Hz, while both of them move towards a stationary siren of frequency 165Hz. Calculate the speed of the motorcycle, if it is given that he does not observes any beats.
31
Oct
A police car moving at 22m/s, chases motorcyclist. The police man sounds his horn at 176Hz, while both of them move towards a stationary siren of frequency 165Hz. Calculate the speed of the motorcycle, if it is given that he does not observes any beats. A police car moving at 22m/s chases motorcyclist. The police [...]
A car is moving with a velocity of 5m/s towards huge wall. The driver sounds a horn of frequency 165Hz. If the speed of sound in air is 335m/s, the number of beats heard per second by the driver is
31
Oct
A car is moving with a velocity of 5m/s towards huge wall. The driver sounds a horn of frequency 165Hz. If the speed of sound in air is 335m/s, the number of beats heard per second by the driver is A car is moving with a velocity of 5m/s towards huge wall. The driver sounds [...]
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 t0 How does the frequency f of the whistle as heard by the man changes with time.
31
Oct
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 t0 How does the frequency f of the whistle as heard by the man changes with time. An engine is moving on a [...]
A train has just completed a U-curve in a track which is a semicircle. The engine is at the forward end of the semi-circular part of the track while the last carriage is at the rear end of the semi-circular track. The driver blows a whistle of frequency 200 Hz. Velocity of sound is 340 m/sec. Then the apparent frequency as observed by a passenger in the middle of a train when the speed of the train is 30 m/sec is
31
Oct
A train has just completed a U-curve in a track which is a semicircle. The engine is at the forward end of the semi-circular part of the track while the last carriage is at the rear end of the semi-circular track. The driver blows a whistle of frequency 200 Hz. Velocity of sound is 340 [...]
An engine is moving on a circular track with a constant speed. It is blowing a whistle of frequency 500Hz. The frequency received by an observer standing stationary at the centre of the track is
31
Oct
An engine is moving on a circular track with a constant speed. It is blowing a whistle of frequency 500Hz. The frequency received by an observer standing stationary at the centre of the track is An engine is moving on a circular track with a constant speed. It is blowing a whistle of frequency 500Hz. [...]
In previous question, what would be the apparent wavelengths in front of and behind the locomotive if a wind of speed 10m/s were blowing in the same direction as that in which the locomotive is travelling?
31
Oct
In previous question, what would be the apparent wavelengths in front of and behind the locomotive if a wind of speed 10m/s were blowing in the same direction as that in which the locomotive is travelling? In previous question what would be the apparent wavelengths in front of and behind the locomotive if a wind [...]
In a Kundt’s tube stationary tube frequency 1000 Hz are produced. The total distance between 6 successive nodes is 82.5cm. The speed of sound in the gas filled in the tube is
31
Oct
In a Kundt’s tube stationary tube frequency 1000 Hz are produced. The total distance between 6 successive nodes is 82.5cm. The speed of sound in the gas filled in the tube is In a Kundt's tube stationary tube frequency 1000 Hz are produced. The total distance between 6 successive nodes is 82.5cm. The speed of [...]
A tuning fork of frequency 340 Hz is vibrated just above a cylindrical tube of length 120 cm. Water is slowly poured in the tube. If the speed of sound in air is 340 m/s, then the minimum height of water required for resonance is
31
Oct
A tuning fork of frequency 340 Hz is vibrated just above a cylindrical tube of length 120 cm. Water is slowly poured in the tube. If the speed of sound in air is 340 m/s, then the minimum height of water required for resonance is A tuning fork of frequency 340 Hz is vibrated just [...]