Two particles are executing simple harmonic motion of the same amplitude A and frequency ω along the x-axis. Their mean position is separated by distance X0(X0>A). If the maximum separation between them is (X0+A), the phase difference between their motion is
Two particles are executing simple harmonic motion of the same amplitude A and frequency ω along the x-axis. Their mean position is separated by distance X0(X0>A). If the maximum separation between them is (X0+A), the phase difference between their motion is:
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Q2
Two particles are executing simple harmonic motion of the same amplitude A and frequency co along the x-axis. Their mean position is separated by distance X0(X0>A). If the maximum separation between them is (X0+A), the phase difference between their motion is
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Q3
Two particles are executing simple harmonic motion of the same amplitude A and angular frequency ω along the x−axis. Their mean position is separated by distance Xo(Xo>A). If the maximum separation between them is (Xo+A), the phase difference between their motion is
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Q4
Two particle are executing simple harmonic motion of the same amplitude A and frequency ω along the x−axis. Their mean position is separated by distance Xo(Xo>A). If the maximum separation between them is (Xo+A), the phase difference between their motion is
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Q5
Two linear simple harmonic motions of equal amplitude and frequency are
impressed on a particle along x and y-axis respectively. The initial phase difference between them is π2. The resultant path followed by the particle is :