Cengage NEET by C.P Singh

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A tuning fork and sonometer give 5 beats per second, when the length of the wire is 1 m and 1.05 m, the frequency of the fork is.
31
Oct
A tuning fork and sonometer give 5 beats per second, when the length of the wire is 1 m and 1.05 m, the frequency of the fork is. A tuning fork and sonometer give 5 beats per second the frequency of the fork is. when the length of the wire is 1 m and 1.05 [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: A tuning fork and sonometer give 5 beats per second , the frequency of the fork is. , when the length of the wire is 1 m and 1.05 m ,
A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased, the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork.
31
Oct
A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased, the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork. [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: A column of air at 51^∘C and a tuning fork produce 4 beats per second when sounded together. As the temperature of the air column is decreased , the number of beats per tends to decrease and when the temperature is 16^∘C the two produce 1 beat per second. Find the frequency of the tuning fork. ,
The fundamental frequency of a vibrating organ pipe is 200Hz.
31
Oct
The fundamental frequency of a vibrating organ pipe is 200Hz. The fundamental frequency of a vibrating organ pipe is 200Hz. October 31, 2020 Category: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: The fundamental frequency of a vibrating organ pipe is 200Hz. ,
If frequency of organ pipe is independent of temperature, then value of α (coefficient of linear expansion of material of pipe) should be nearly
31
Oct
If frequency of organ pipe is independent of temperature, then value of α (coefficient of linear expansion of material of pipe) should be nearly If frequency of organ pipe is independent of temperature then value of α (coefficient of linear expansion of material of pipe) should be nearly October 31, 2020 Category: Cengage NEET by [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: If frequency of organ pipe is independent of temperature , then value of α (coefficient of linear expansion of material of pipe) should be nearly ,
An organ pipe filled with a gas at 27^∘C resonates at 400Hz in its fundamental mode. If it is filled with the same gas at 90^∘C, the resonance frequency will be
31
Oct
An organ pipe filled with a gas at 27^∘C resonates at 400Hz in its fundamental mode. If it is filled with the same gas at 90^∘C, the resonance frequency will be An organ pipe filled with a gas at 27^∘C resonates at 400Hz in its fundamental mode. If it is filled with the same gas [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: An organ pipe filled with a gas at 27^∘C resonates at 400Hz in its fundamental mode. If it is filled with the same gas at 90^∘C , the resonance frequency will be ,
The length of two open organ pipes are l and (l+δl) respectively. Neglecting end correction, the frequency of beats between them will b approximately.
31
Oct
The length of two open organ pipes are l and (l+δl) respectively. Neglecting end correction, the frequency of beats between them will b approximately. the frequency of beats between them will b approximately. The length of two open organ pipes are l and (l+δl) respectively. Neglecting end correction October 31, 2020 Category: Cengage NEET by [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: the frequency of beats between them will b approximately. , The length of two open organ pipes are l and (l+δl) respectively. Neglecting end correction ,
An open pipe is in resonance in it 2nd harmonic with tuning fork frequency f1. Now it is closed at one end. if the frequency of the tuning fork is increased slowly from f1 then again a resonance is obtained with frequency f2. If in this case the pipe vibrate nth harmonic then
31
Oct
An open pipe is in resonance in it 2nd harmonic with tuning fork frequency f1. Now it is closed at one end. if the frequency of the tuning fork is increased slowly from f1 then again a resonance is obtained with frequency f2. If in this case the pipe vibrate nth harmonic then the air [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: the air column in the pipe can resonate for sound of frequency : , Velocity of sound in air is 320m/s. A pipe closed at one end has a length of 1m. Neglecting the end corrections ,
Velocity of sound in air is 320m/s. A pipe closed at one end has a length of 1m. Neglecting the end corrections, the air column in the pipe can resonate for sound of frequency :
31
Oct
Velocity of sound in air is 320m/s. A pipe closed at one end has a length of 1m. Neglecting the end corrections, the air column in the pipe can resonate for sound of frequency : the air column in the pipe can resonate for sound of frequency : Velocity of sound in air is 320m/s. [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: the air column in the pipe can resonate for sound of frequency : , Velocity of sound in air is 320m/s. A pipe closed at one end has a length of 1m. Neglecting the end corrections ,
For a certain organ pipe, three successive resonant frequencies are observed at 425,595 and 765Hz. The speed of sound in air is 340m/s. The pipe is a
31
Oct
For a certain organ pipe, three successive resonant frequencies are observed at 425,595 and 765Hz. The speed of sound in air is 340m/s. The pipe is a 595 and 765Hz. The speed of sound in air is 340m/s. The pipe is a For a certain organ pipe three successive resonant frequencies are observed at 425 [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: 595 and 765Hz. The speed of sound in air is 340m/s. The pipe is a , For a certain organ pipe , three successive resonant frequencies are observed at 425 ,
An organ pipe closed at one end has fundamental frequency of 500Hz. The maximum number of overtones generated by this pipe which a normal person can hear is
31
Oct
An organ pipe closed at one end has fundamental frequency of 500Hz. The maximum number of overtones generated by this pipe which a normal person can hear is An organ pipe closed at one end has fundamental frequency of 500Hz. The maximum number of overtones generated by this pipe which a normal person can hear [...]
Posted in: Cengage NEET by C.P Singh , Chapter 17 - Sound Waves , Part 1 ,
Tags: An organ pipe closed at one end has fundamental frequency of 500Hz. The maximum number of overtones generated by this pipe which a normal person can hear is ,