the angle of refraction is
A traveling wave is represented by the equation y= 10/1 sin(60t+2x), where x and y in meters and t is in second . this represents a wave (1) of frequency π/ 30 Hz (2) of wavelength πm (3)of amplitude 10 cm (4) moving in the positive x direction pick out the correct statements from the above.
11
Nov
A traveling wave is represented by the equation y= 10/1 sin(60t+2x), where x and y in meters and t is in second . this represents a wave (1) of frequency π/ 30 Hz (2) of wavelength πm (3)of amplitude 10 cm (4) moving in the positive x direction pick out the correct statements from the [...]
Polarising angle for water is 53^o 4. If light is incident at this angle on water and reflected, the angle of refraction is :
11
Nov
Polarising angle for water is 53^o 4. If light is incident at this angle on water and reflected, the angle of refraction is : Polarising angle for water is 53^o 4. If light is incident at this angle on water and reflected the angle of refraction is November 11, 2020 Category: Chapter 10 - Wave [...]
A tuning fork whose frequency as given by manufacturer is 512 Hz is being tested with an accurate oscillator it is found that the fork produces a 2 beat per sound when oscillator reads 514 Hz and 6 beat per sound when it reads 510 Hz. The actual frequency of fork is
15
Sep
A tuning fork whose frequency as given by manufacturer is 512 Hz is being tested with an accurate oscillator it is found that the fork produces a 2 beat per sound when oscillator reads 514 Hz and 6 beat per sound when it reads 510 Hz. The actual frequency of fork is A thin plane [...]
Vibrating tuning fork of frequency n is placed near the open end of a long cylindrical tube. The tube has a side opening and is fitted with a movable reflecting piston. As the piston is moved through 8.75 cm, the intensity of sound changes from a maximum to minimum. If the speed of sound is 350 m/s. Then n is
15
Sep
Vibrating tuning fork of frequency n is placed near the open end of a long cylindrical tube. The tube has a side opening and is fitted with a movable reflecting piston. As the piston is moved through 8.75 cm, the intensity of sound changes from a maximum to minimum. If the speed of sound is [...]
Two loudspeakers L1 and L2 driven by a common oscillator and amplifier, are arranged as shown. The frequency of the oscillator is gradually increased from zero and the detector at D records a series of maxima and minima. If the speed of sound is 330 ms^−1 then the frequency at which the first maximum is observed is :
15
Sep
Two loudspeakers L1 and L2 driven by a common oscillator and amplifier, are arranged as shown. The frequency of the oscillator is gradually increased from zero and the detector at D records a series of maxima and minima. If the speed of sound is 330 ms^−1 then the frequency at which the first maximum is [...]
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A thin plane membrane separates hydrogen at 7 degree C from hydrogen at 47 degree C ,
both being at the same pressure. If a collimated sound beam travelling from the cooler gas makes an angle of incidence of 30 degree at the membrane ,
the angle of refraction is ,
Two loudspeakers L1 and L2 driven by a common oscillator and amplifier ,
In a Hall, a person receives direct sound waves from a source 120 m away. He also receives a wave from the same source which reaches him after being reflected from the 25 m high ceiling at a point halfway between them. The two waves interfere constructively for wavelengths (in meters)
15
Sep
In a Hall, a person receives direct sound waves from a source 120 m away. He also receives a wave from the same source which reaches him after being reflected from the 25 m high ceiling at a point halfway between them. The two waves interfere constructively for wavelengths (in meters) A thin plane membrane [...]
A thin plane membrane separates hydrogen at 7 degree C from hydrogen at 47 degree C, both being at the same pressure. If a collimated sound beam travelling from the cooler gas makes an angle of incidence of 30 degree at the membrane, the angle of refraction is
14
Sep
A thin plane membrane separates hydrogen at 7 degree C from hydrogen at 47 degree C, both being at the same pressure. If a collimated sound beam travelling from the cooler gas makes an angle of incidence of 30 degree at the membrane, the angle of refraction is A thin plane membrane separates hydrogen at [...]