Arihant Physics by D.C Pandey

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A progressive wave in a medium is represented by the equation y=0.1sin(10πt−5/11πx) where y and x are in cm and t in seconds. The maximum speed of the particle of the medium due to wave is
01
Nov
A progressive wave in a medium is represented by the equation y=0.1sin(10πt−5/11πx) where y and x are in cm and t in seconds. The maximum speed of the particle of the medium due to wave is A progressive wave in a medium is represented by the equation y=0.1sin(10πt−5/11πx) where y and x are in cm [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: A progressive wave in a medium is represented by the equation y=0.1sin(10πt−5/11πx) where y and x are in cm and t in seconds. The maximum speed of the particle of the medium due to wave is ,
What is the phase difference at a given instant of time between two particles 25 m apart. When the wave, y(x, t)) = 0.03 sin π(2t−0.01x) tavels in a medium ?
01
Nov
What is the phase difference at a given instant of time between two particles 25 m apart. When the wave, y(x, t)) = 0.03 sin π(2t−0.01x) tavels in a medium ? t)) = 0.03 sin π(2t−0.01x) tavels in a medium ? What is the phase difference at a given instant of time between two particles [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: t)) = 0.03 sin π(2t−0.01x) tavels in a medium ? , What is the phase difference at a given instant of time between two particles 25 m apart. When the wave , y(x ,
A wave of amplitude A = 0.2 m, velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis, then the correct expression for the wave is
01
Nov
A wave of amplitude A = 0.2 m, velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis, then the correct expression for the wave is A wave of amplitude A = 0.2 m then the correct expression for the wave is velocity v = 360 m/s and wavelength 60 m [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: A wave of amplitude A = 0.2 m , then the correct expression for the wave is , velocity v = 360 m/s and wavelength 60 m is travelling along positive x-axis ,
The frequency of a tuning fork with an amplitude A 1cm is 250 Hz. The maximum velocity of any particle in air is equal to:
01
Nov
The frequency of a tuning fork with an amplitude A 1cm is 250 Hz. The maximum velocity of any particle in air is equal to: The frequency of a tuning fork with an amplitude A 1cm is 250 Hz. The maximum velocity of any particle in air is equal to: November 1, 2020 Category: Arihant [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: The frequency of a tuning fork with an amplitude A 1cm is 250 Hz. The maximum velocity of any particle in air is equal to: ,
A transverse wave is described by the equation y = y0 ​sin 2π(ft − λ/π ). The maximum particle velocity is equal to four times the wave velocity if :
01
Nov
A transverse wave is described by the equation y = y0 ​sin 2π(ft − λ/π ). The maximum particle velocity is equal to four times the wave velocity if : A transverse wave is described by the equation y = y0 ​sin 2π(ft − λ/π ). The maximum particle velocity is equal to four times [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: A transverse wave is described by the equation y = y0 ​sin 2π(ft − λ/π ). The maximum particle velocity is equal to four times the wave velocity if : ,
The distance between two points differing in phase by 60^∘ on a wave having a wave velocity 360 m/s and frequency 500 Hz is
01
Nov
The distance between two points differing in phase by 60^∘ on a wave having a wave velocity 360 m/s and frequency 500 Hz is The distance between two points differing in phase by 60^∘ on a wave having a wave velocity 360 m/s and frequency 500 Hz is November 1, 2020 Category: Arihant Physics by [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 16 - Waves , Volume 1 ,
Tags: The distance between two points differing in phase by 60^∘ on a wave having a wave velocity 360 m/s and frequency 500 Hz is ,
A particle executes SHM with an amplitude of 20 cm and time period of 12 sec. The minimum time required for it to move between two points 10 cm on either side of the mean position ?
01
Nov
A particle executes SHM with an amplitude of 20 cm and time period of 12 sec. The minimum time required for it to move between two points 10 cm on either side of the mean position ? A particle executes SHM with an amplitude of 20 cm and time period of 12 sec. The minimum [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 ,
Tags: A particle executes SHM with an amplitude of 20 cm and time period of 12 sec. The minimum time required for it to move between two points 10 cm on either side of the mean position ? ,
Molten-wax of mass m drops on a block of mass, M which is oscillating on a frictionless table as shown. Select the incorrect option.
01
Nov
Molten-wax of mass m drops on a block of mass, M which is oscillating on a frictionless table as shown. Select the incorrect option. M which is oscillating on a frictionless table as shown. Select the incorrect option. Molten-wax of mass m drops on a block of mass November 1, 2020 Category: Arihant Physics by [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 ,
Tags: M which is oscillating on a frictionless table as shown. Select the incorrect option. , Molten-wax of mass m drops on a block of mass ,
The ratio of frequencies of two pendulums are 2 : 3, then their length are in ratio
01
Nov
The ratio of frequencies of two pendulums are 2 : 3, then their length are in ratio The ratio of frequencies of two pendulums are 2 : 3 then their length are in ratio November 1, 2020 Category: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 ,
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 ,
Tags: The ratio of frequencies of two pendulums are 2 : 3 , then their length are in ratio ,
In a simple pendulum the period of oscillation (T) is related to the length of the pendulum (L) as
01
Nov
In a simple pendulum the period of oscillation (T) is related to the length of the pendulum (L) as In a simple pendulum the period of oscillation (T) is related to the length of the pendulum (L) as November 1, 2020 Category: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 [...]
Posted in: Arihant Physics by D.C Pandey , Chapter 11 - SHM , Volume 1 ,
Tags: In a simple pendulum the period of oscillation (T) is related to the length of the pendulum (L) as ,