AIIMS Last 24 Years Solved 1996 – 2019 Physics and Chemistry Video Solutions
Sahay Sir > Question Answers > AIIMS Last 24 Years Solved 1996 - 2019 Physics and Chemistry Video Solutions
If the temperature of the medium drops by 1 %, the velocity of sound in that medium
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Nov
If the temperature of the medium drops by 1 %, the velocity of sound in that medium If the temperature of the medium drops by 1 % the velocity of sound in that medium November 1, 2020 Category: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Under the same conditions of pressure and temperature, the velocity of sound in oxygen and hydrogen gases are vo and vH , then
01
Nov
Under the same conditions of pressure and temperature, the velocity of sound in oxygen and hydrogen gases are vo and vH , then the velocity of sound in oxygen and hydrogen gases are vo and vH then Under the same conditions of pressure and temperature November 1, 2020 Category: Arihant Physics by D.C Pandey , [...]
Intensity level of intensity l is 30 dB. The ratio I/I0 is (where I0 is the threshold of hearing)
01
Nov
Intensity level of intensity l is 30 dB. The ratio I/I0 is (where I0 is the threshold of hearing) Intensity level of intensity l is 30 dB. The ratio I/I0 is (where I0 is the threshold of hearing) November 1, 2020 Category: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 [...]
If frequency of sound produced by a siren increases from 400 to 1200 Hz while the wave amplitude remains constant, the ratio of intensity of the 1200 Hz to that of 400 Hz wave will
01
Nov
If frequency of sound produced by a siren increases from 400 to 1200 Hz while the wave amplitude remains constant, the ratio of intensity of the 1200 Hz to that of 400 Hz wave will If frequency of sound produced by a siren increases from 400 to 1200 Hz while the wave amplitude remains constant [...]
Two strings A and B have lengths lA and lB carry masses MA and MB at their lower ends the upper ends being supported by rigid supports. If nA and nB are the fundamental frequencies of their vibration, then nA : nB is
01
Nov
Two strings A and B have lengths lA and lB carry masses MA and MB at their lower ends the upper ends being supported by rigid supports. If nA and nB are the fundamental frequencies of their vibration, then nA : nB is A stationary wave set up on a string have the equation [...]
A stationary wave set up on a string have the equation y = (2mm) sin [(6.25 m^-1) x cos (ωt)]. This stationary wave is created by two identical waves, of amplitude A each moving in opposite directions along the string. Then
01
Nov
A stationary wave set up on a string have the equation y = (2mm) sin [(6.25 m^-1) x cos (ωt)]. This stationary wave is created by two identical waves, of amplitude A each moving in opposite directions along the string. Then A stationary wave set up on a string have the equation y = (2mm) [...]
In order to double the frequency of the fundamental note emitted by a stretched string, the length is reduced to 3/4th of the original length and the tension is changed. The factor by which the tension is to be changed is
01
Nov
In order to double the frequency of the fundamental note emitted by a stretched string, the length is reduced to 3/4th of the original length and the tension is changed. The factor by which the tension is to be changed is In order to double the frequency of the fundamental note emitted by a stretched [...]
If you set up the ninth harmonic on a string fixed at both ends, its frequency compared to the seventh harmonic is
01
Nov
If you set up the ninth harmonic on a string fixed at both ends, its frequency compared to the seventh harmonic is If you set up the ninth harmonic on a string fixed at both ends its frequency compared to the seventh harmonic is November 1, 2020 Category: Arihant Physics by D.C Pandey , Chapter [...]
A 1 cm long string vibrates with fundamental frequency of 256 Hz . If the length is reduced to 1/4 cm keeping the tension unaltered, the new fundamental frequency will be (in Hz)
01
Nov
A 1 cm long string vibrates with fundamental frequency of 256 Hz . If the length is reduced to 1/4 cm keeping the tension unaltered, the new fundamental frequency will be (in Hz) A 1 cm long string vibrates with fundamental frequency of 256 Hz . If the length is reduced to 1/4 cm keeping [...]
Consider the three waves z1 z2 and z3 as z1 = A sin (kx – ωt) z2 = A sin (kx + ωt) z3 = A sin (ky – ωt) Which of the following represents a standing wave?
01
Nov
Consider the three waves z1 z2 and z3 as z1 = A sin (kx – ωt) z2 = A sin (kx + ωt) z3 = A sin (ky – ωt) Which of the following represents a standing wave? Consider the three waves z1 z2 and z3 as z1 = A sin (kx – ωt) z2 [...]