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
The displacement of a particle varies according to the relation x=4(cosπt+sinπt). The amplitude of the particle is:
07
Nov
The displacement of a particle varies according to the relation x=4(cosπt+sinπt). The amplitude of the particle is: The displacement of a particle varies according to the relation x=4(cosπt+sinπt). The amplitude of the particle is: November 7, 2020 Category: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
A body executes simple harmonic motion. The potential energy (P.E), the kinetic energy (K.E) and energy (T.E) are measured as a function of displacement x. Which of the following statements is true?
07
Nov
A body executes simple harmonic motion. The potential energy (P.E), the kinetic energy (K.E) and energy (T.E) are measured as a function of displacement x. Which of the following statements is true? A body executes simple harmonic motion. The potential energy (P.E.) the kinetic energy (K.E) and energy (T.E) are measured as a function of [...]
A simple pendulum is executing simple harmonic motion Is increased by 21%, the percentage increase in the time period of the pendulum of increased length is
07
Nov
A simple pendulum is executing simple harmonic motion Is increased by 21%, the percentage increase in the time period of the pendulum of increased length is A simple pendulum is executing simple harmonic motion Is increased by 21% the percentage increase in the time period of the pendulum of increased length is November 7, 2020 [...]
In the experiment for the determination of the speed of sound in air using the resonance column method, the length of the air column that resonates in the fundamental mode, with a tuning fork is 0.1 m. When this length is changed to 0.35 m, the same tuning fork resonates with the first overtone. Calculate the end correction
06
Nov
In the experiment for the determination of the speed of sound in air using the resonance column method, the length of the air column that resonates in the fundamental mode, with a tuning fork is 0.1 m. When this length is changed to 0.35 m, the same tuning fork resonates with the first overtone. Calculate [...]
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In the experiment for the determination of the speed of sound in air using the resonance column method ,
the length of the air column that resonates in the fundamental mode ,
the same tuning fork resonates with the first overtone. Calculate the end correction ,
with a tuning fork is 0.1 m. When this length is changed to 0.35 m ,
In a resonance pipe the first and second resonances are obtained at depths 22.7cm and 70.2cm respectively. What will be the end correction?
06
Nov
In a resonance pipe the first and second resonances are obtained at depths 22.7cm and 70.2cm respectively. What will be the end correction? In a resonance pipe the first and second resonances are obtained at depths 22.7cm and 70.2cm respectively. What will be the end correction? November 6, 2020 Category: Arihant Physics by D.C Pandey [...]
To increase the frequency from 100Hz to 400Hz the tension in the string has to be changed by
06
Nov
To increase the frequency from 100Hz to 400Hz the tension in the string has to be changed by To increase the frequency from 100Hz to 400Hz the tension in the string has to be changed by November 6, 2020 Category: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Two sinusoidal waves with same wavelengths and amplitudes travel in opposite directions along a string with a speed 10ms^−1. If the minimum time interval between two instant when the string is flat is 0.5s, the wavelength of the waves is
06
Nov
Two sinusoidal waves with same wavelengths and amplitudes travel in opposite directions along a string with a speed 10ms^−1. If the minimum time interval between two instant when the string is flat is 0.5s, the wavelength of the waves is A transverse wave y=0.05sin(20πx−50πt) meters The resultant amplitude due to superposition of two harmonic waves [...]
Two waves are propagating to the point P along a straight line produced by two sources A and B of simple harmonic and of equal frequency. The amplitude of every wave at P is a and the phase of A is ahead by π/3 than that of B and the distance AP is greater than BP by 50cm. Then the resultant amplitude at the point P will be if the wavelength 1 meter
06
Nov
Two waves are propagating to the point P along a straight line produced by two sources A and B of simple harmonic and of equal frequency. The amplitude of every wave at P is a and the phase of A is ahead by π/3 than that of B and the distance AP is greater than [...]
Two sources of sound A and B produce the wave of 350Hz, they vibrate in the same phase. The particle P is vibrating under the influence of these two waves. If the amplitude at the point P produced by the two waves is 0.3mm and 0.4 mm then the resultant amplitude of the point P will be: (path difference AP−BP = 25cm and the velocity of sound is 350m/sec)
06
Nov
Two sources of sound A and B produce the wave of 350Hz, they vibrate in the same phase. The particle P is vibrating under the influence of these two waves. If the amplitude at the point P produced by the two waves is 0.3mm and 0.4 mm then the resultant amplitude of the point P [...]
When two sound waves with a phase difference of π/2, and each having amplitude A and frequency ω , are superimposed on each other, then the maximum amplitude and frequency of resultant wave is
06
Nov
When two sound waves with a phase difference of π/2, and each having amplitude A and frequency ω , are superimposed on each other, then the maximum amplitude and frequency of resultant wave is and each having amplitude A and frequency ω are superimposed on each other then the maximum amplitude and frequency of resultant [...]