364262 If a simple pendulum oscillates with an amplitude of \(50\;mm\) and time period of \(2\;s\), then its maximum velocity is

364263 Which of the following expressions for force acting on a particle corresponds to simple harmonic motion along a straight line, where \(x\) is the displacement and \(a,b,c\) are positive constants?

364264 The amplitude of an oscillating simple pendulum is \(10\;cm\) and its time period is \(4\;s.\) Its speed after \(1 s\), when it passes through its equilibrium position is

364265 For a particle performing linear SHM, its average speed over one oscillation is ( where \(a\) = amplitude of SHM, \(n = \) frequency of oscillation)

364262 If a simple pendulum oscillates with an amplitude of \(50\;mm\) and time period of \(2\;s\), then its maximum velocity is

364263 Which of the following expressions for force acting on a particle corresponds to simple harmonic motion along a straight line, where \(x\) is the displacement and \(a,b,c\) are positive constants?

364264 The amplitude of an oscillating simple pendulum is \(10\;cm\) and its time period is \(4\;s.\) Its speed after \(1 s\), when it passes through its equilibrium position is

364265 For a particle performing linear SHM, its average speed over one oscillation is ( where \(a\) = amplitude of SHM, \(n = \) frequency of oscillation)

364262 If a simple pendulum oscillates with an amplitude of \(50\;mm\) and time period of \(2\;s\), then its maximum velocity is

364263 Which of the following expressions for force acting on a particle corresponds to simple harmonic motion along a straight line, where \(x\) is the displacement and \(a,b,c\) are positive constants?

364264 The amplitude of an oscillating simple pendulum is \(10\;cm\) and its time period is \(4\;s.\) Its speed after \(1 s\), when it passes through its equilibrium position is

364265 For a particle performing linear SHM, its average speed over one oscillation is ( where \(a\) = amplitude of SHM, \(n = \) frequency of oscillation)

364262 If a simple pendulum oscillates with an amplitude of \(50\;mm\) and time period of \(2\;s\), then its maximum velocity is

364263 Which of the following expressions for force acting on a particle corresponds to simple harmonic motion along a straight line, where \(x\) is the displacement and \(a,b,c\) are positive constants?

364264 The amplitude of an oscillating simple pendulum is \(10\;cm\) and its time period is \(4\;s.\) Its speed after \(1 s\), when it passes through its equilibrium position is

364265 For a particle performing linear SHM, its average speed over one oscillation is ( where \(a\) = amplitude of SHM, \(n = \) frequency of oscillation)