Physics-
General
Easy
Question
The extension in a string, obeying Hooke’s law is x. The speed of sound in the stretched string is V. If the extension in the string is increased to 2x then speed of sound will be
- 1.5V
- 4.14 V
- 1.414 V
- 2V
The correct answer is: 4.14 V
Related Questions to study
Physics-
The linear density of a vibrating string is 
The transverse wave propagating along the string is described by 
where x is in meter and t is in second. The tension in the string is
The linear density of a vibrating string is The transverse wave propagating along the string is described by where x is in meter and t is in second. The tension in the string is
Physics-General
Physics-
The equation of a wave pulse is given as 
the amplitude and velocity of the pulse are
The equation of a wave pulse is given as the amplitude and velocity of the pulse are
Physics-General
Physics-
Five beats per second are produced on 21:20, then their frequencies will be
Five beats per second are produced on 21:20, then their frequencies will be
Physics-General
Physics-
If the speed of sound is changed by 1 percent, the temperature of air near 0°C be changed is
If the speed of sound is changed by 1 percent, the temperature of air near 0°C be changed is
Physics-General
Physics-
A wave pulse on a string has the dimension shown in figure. The wave speed is null. If point O is a free end. The shape of wave at time null is
A wave pulse on a string has the dimension shown in figure. The wave speed is null. If point O is a free end. The shape of wave at time null is
Physics-General
Physics-
The equation of progressive wave is 
where x,y are in meter and t in second, then
a) Velocity of wave is 50 m/s
b) Maximum velocity of particle is 1m/s
c) Wave length of wave is 2Π meter
The equation of progressive wave is where x,y are in meter and t in second, then
a) Velocity of wave is 50 m/s
b) Maximum velocity of particle is 1m/s
c) Wave length of wave is 2Π meter
Physics-General
Physics-
Sound signal is sent through a composite tube as shown in figure. The radius of the semicircle is r. Speed of sound in air is V. The source of sound is capable to generate frequencies in the range null. If n is an integer then frequency for maximum intensity is given by
Sound signal is sent through a composite tube as shown in figure. The radius of the semicircle is r. Speed of sound in air is V. The source of sound is capable to generate frequencies in the range null. If n is an integer then frequency for maximum intensity is given by
Physics-General
Physics-
A transverse wave is passing through a light string shown in the figure. The equation of wave is y null The area of cross-section of string is A and density is r . The hanging mass is
A transverse wave is passing through a light string shown in the figure. The equation of wave is y null The area of cross-section of string is A and density is r . The hanging mass is
Physics-General
Physics-
An open pipe resonates to a frequency f1 and a closed pipe resonates to a frequency f2. If they are joined together to form a longer tube, then it will resonate to a frequency of (neglect end corrections)
An open pipe resonates to a frequency f1 and a closed pipe resonates to a frequency f2. If they are joined together to form a longer tube, then it will resonate to a frequency of (neglect end corrections)
Physics-General
Physics-
A closed organ pipe has length l. The air in it is vibrating in 3rd overtone with a maximum amplitude of A. Find the amplitude at a distance of l /14 from closed end of the pipe
A closed organ pipe has length l. The air in it is vibrating in 3rd overtone with a maximum amplitude of A. Find the amplitude at a distance of l /14 from closed end of the pipe
Physics-General
Physics-
The difference between apparent freqencies of a source of sound as percieved by a stationary observer during its approach and recession is 2% of the actual freqency. The speed of source is (V = 340m/sec.)
The difference between apparent freqencies of a source of sound as percieved by a stationary observer during its approach and recession is 2% of the actual freqency. The speed of source is (V = 340m/sec.)
Physics-General
Physics-
The fundamental frequency of a sonometer wire of length 
is fo. A bridge is now introduced at a distance of Δ from the centre of the wire ( 
<<). The number of beats heard per second if both sides of the bridge are set to vibrate in their fundamental mode is
The fundamental frequency of a sonometer wire of length is fo. A bridge is now introduced at a distance of Δ from the centre of the wire ( <<). The number of beats heard per second if both sides of the bridge are set to vibrate in their fundamental mode is
Physics-General
Physics-
A source S emitting sound of frequency 300Hz is fixed on block A which is attached to the free end of a spring SA as shown in figure. The dectector D fixed on block B attached to free end of spring SB detects this sound. The blocks A and B are simultaneously displaced towards each other through a distance of 1.0m and then left to vibrate. The maximum and minimum frequencies of sound detected by D, if the vibrational frequency of each block is 2Hz are (Velocity of sound v = 340m/s)
A source S emitting sound of frequency 300Hz is fixed on block A which is attached to the free end of a spring SA as shown in figure. The dectector D fixed on block B attached to free end of spring SB detects this sound. The blocks A and B are simultaneously displaced towards each other through a distance of 1.0m and then left to vibrate. The maximum and minimum frequencies of sound detected by D, if the vibrational frequency of each block is 2Hz are (Velocity of sound v = 340m/s)
Physics-General
Physics-
Two stereo speakers are separated by a distance of 2.4 m. A person stands at a distance of 3.2 m as shown directly in front of one of the speakers. The frequencies in audible range for which the listener will hear a minimum sound intensity are (Speed of the sound in air is 320 ms-1 and n is order of minimum)
Two stereo speakers are separated by a distance of 2.4 m. A person stands at a distance of 3.2 m as shown directly in front of one of the speakers. The frequencies in audible range for which the listener will hear a minimum sound intensity are (Speed of the sound in air is 320 ms-1 and n is order of minimum)
Physics-General
Physics-
A string of length l along x-axis is fixed at both ends and is vibrating in second harmonic. If at t = 0, y = 2.5mm for incident wave, the equation of standing wave is ( T is tension and 
is linear density)
A string of length l along x-axis is fixed at both ends and is vibrating in second harmonic. If at t = 0, y = 2.5mm for incident wave, the equation of standing wave is ( T is tension and is linear density)
Physics-General
