Volume 2

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A source of frequency 10kHz when vibrated over than mouth of a closed organ is in unison at 300K. The beats produced when temperature rises by 1K is
26
Jun
A source of frequency 10kHz when vibrated over than mouth of a closed organ is in unison at 300K. The beats produced when temperature rises by 1K is A source of frequency 10kHz when vibrated over than mouth of a closed organ is in unison at 300K. The beats produced when temperature rises by 1K [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: A source of frequency 10kHz when vibrated over than mouth of a closed organ is in unison at 300K. The beats produced when temperature rises by 1K is ,
Two identical sound S1 and S2 reach at a point P is phase. The resultant loudness at point P is ndB higher than the loudness of S1 the value of n is :
26
Jun
Two identical sound S1 and S2 reach at a point P is phase. The resultant loudness at point P is ndB higher than the loudness of S1 the value of n is : Two identical sound S1 and S2 reach at a point P is phase. The resultant loudness at point P is ndB higher [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: Two identical sound S1 and S2 reach at a point P is phase. The resultant loudness at point P is ndB higher than the loudness of S1 the value of n is : ,
A string of length L is stretched by L/20 and speed of transverse wave along it is v. The speed of wave when it is stretched by L/10 will be : (assume the Hooke’s law is applicable)
26
Jun
A string of length L is stretched by L/20 and speed of transverse wave along it is v. The speed of wave when it is stretched by L/10 will be : (assume the Hooke’s law is applicable) A string of length L is stretched by L/20 and speed of transverse wave along it is v. [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: A string of length L is stretched by L/20 and speed of transverse wave along it is v. The speed of wave when it is stretched by L/10 will be : (assume the Hooke's law is applicable) ,
A heavy rope is suspended from a rigid support. A wave pulse is set up at the lower end, then.
26
Jun
A heavy rope is suspended from a rigid support. A wave pulse is set up at the lower end, then. A heavy rope is suspended from a rigid support. A wave pulse is set up at the lower end then June 26, 2021 Category: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: A heavy rope is suspended from a rigid support. A wave pulse is set up at the lower end , then ,
A source of sound of frequency 600 Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sounds recorded by an observer who is standing in air is
26
Jun
A source of sound of frequency 600 Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sounds recorded by an observer who is standing in air is Speed of transverse wave in a string of density 100kg/m^(3) and area of [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: Speed of transverse wave in a string of density 100kg/m^(3) and area of cross-section 10mm^(2) under a tension of 10^(3) N is ,
For a certain organ pipe, three successive resonance frequencies are observed at 425 Hz, 595 Hz and 765 Hz respectively, If the speed of sound in air is 340 m/s then the length of the pipe(in Hz) is
26
Jun
For a certain organ pipe, three successive resonance frequencies are observed at 425 Hz, 595 Hz and 765 Hz respectively, If the speed of sound in air is 340 m/s then the length of the pipe(in Hz) is 595 Hz and 765 Hz respectively For a certain organ pipe If the speed of sound in [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: 595 Hz and 765 Hz respectively , For a certain organ pipe , If the speed of sound in air is 340 m/s then the length of the pipe(in Hz) is , three successive resonance frequencies are observed at 425 Hz ,
The equation of a wave disturbance is a given as y= 0.02 sin ((pi)/(2)+50pi t) cos (10 pix), where x and y are in metre and t is in second . Choose the correct statement (s).
26
Jun
The equation of a wave disturbance is a given as y= 0.02 sin ((pi)/(2)+50pi t) cos (10 pix), where x and y are in metre and t is in second . Choose the correct statement (s). The equation of a wave disturbance is a given as y= 0.02 sin ((pi)/(2)+50pi t) cos (10 pix) where [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: The equation of a wave disturbance is a given as y= 0.02 sin ((pi)/(2)+50pi t) cos (10 pix) , where x and y are in metre and t is in second . Choose the correct statement (s). ,
The ratio of intensities between two coherent sound sources is 4 : 1. The difference of loudness in decibels between maximum and minimum intensities, when they interfere in space, is
26
Jun
The ratio of intensities between two coherent sound sources is 4 : 1. The difference of loudness in decibels between maximum and minimum intensities, when they interfere in space, is is The ratio of intensities between two coherent sound sources is 4 : 1. The difference of loudness in decibels between maximum and minimum intensities [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: is , The ratio of intensities between two coherent sound sources is 4 : 1. The difference of loudness in decibels between maximum and minimum intensities , when they interfere in space ,
The equation of a travelling wave is given as y=5 sin 10 pi(t-0.01x), along the x-axis . Here, all quantities are in SI units. The phase difference between the points separated by a distance of 10 m along x-axis is
26
Jun
The equation of a travelling wave is given as y=5 sin 10 pi(t-0.01x), along the x-axis . Here, all quantities are in SI units. The phase difference between the points separated by a distance of 10 m along x-axis is all quantities are in SI units. The phase difference between the points separated by a [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: all quantities are in SI units. The phase difference between the points separated by a distance of 10 m along x-axis is , along the x-axis . Here , The equation of a travelling wave is given as y=5 sin 10 pi(t-0.01x) ,
Speed of transverse wave in a string of density 100kg/m^(3) and area of cross-section 10mm^(2) under a tension of 10^(3) N is
26
Jun
Speed of transverse wave in a string of density 100kg/m^(3) and area of cross-section 10mm^(2) under a tension of 10^(3) N is Speed of transverse wave in a string of density 100kg/m^(3) and area of cross-section 10mm^(2) under a tension of 10^(3) N is June 26, 2021 Category: Arihant Physics by D.C Pandey , Chapter [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 17 - Wave Motion , Volume 2 ,
Tags: Speed of transverse wave in a string of density 100kg/m^(3) and area of cross-section 10mm^(2) under a tension of 10^(3) N is ,