Chapter 15 – SHM

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A particle starts S.H.M. from the mean position. Its amplitude is A and time period is T . What is its displacement when its speed is half of its maximum speed ?
25
Aug
A particle starts S.H.M. from the mean position. Its amplitude is A and time period is T . What is its displacement when its speed is half of its maximum speed ? A particle starts S.H.M. from the mean position. Its amplitude is A and time period is T . What is its displacement when [...]
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Tags: A particle starts S.H.M. from the mean position. Its amplitude is A and time period is T . What is its displacement when its speed is half of its maximum speed ? ,
Which one of the following statement is true for the speed v and the acceleration a of a particle executing simple harmonic motion?
25
Aug
Which one of the following statement is true for the speed v and the acceleration a of a particle executing simple harmonic motion? Which one of the following statement is true for the speed v and the acceleration a of a particle executing simple harmonic motion? August 25, 2020 Category: Chapter 15 - SHM , [...]
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Tags: Which one of the following statement is true for the speed v and the acceleration a of a particle executing simple harmonic motion? ,
The angular velocity and amplitude of simple pendulum are ω and r respectively. At a displacement x from the mean position, if its kinetic energy is T and potential energy is U, find the ration of T to U.
25
Aug
The angular velocity and amplitude of simple pendulum are ω and r respectively. At a displacement x from the mean position, if its kinetic energy is T and potential energy is U, find the ration of T to U. find the ration of T to U. if its kinetic energy is T and potential energy [...]
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Tags: find the ration of T to U. , if its kinetic energy is T and potential energy is U , The angular velocity and amplitude of simple pendulum are ω and r respectively. At a displacement x from the mean position ,
A body executes S.H.M with an amplitude A. At what displacement from the mean position, is the potential energy of the body one-fourth of its total energy?
25
Aug
A body executes S.H.M with an amplitude A. At what displacement from the mean position, is the potential energy of the body one-fourth of its total energy? A body executes S.H.M with an amplitude A. At what displacement from the mean position is the potential energy of the body one-fourth of its total energy? August [...]
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Tags: A body executes S.H.M with an amplitude A. At what displacement from the mean position , is the potential energy of the body one-fourth of its total energy? ,
In a SHM, when the displacement is one half the amplitude, what fraction of the total energy is kinetic?
25
Aug
In a SHM, when the displacement is one half the amplitude, what fraction of the total energy is kinetic? In a SHM what fraction of the total energy is kinetic? when the displacement is one half the amplitude August 25, 2020 Category: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 [...]
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A linear harmonic oscillator of force constant 2×10^6 N/m and amplitude 0.01 m has a total mechanical energy of 160 J. Its
25
Aug
A linear harmonic oscillator of force constant 2×10^6 N/m and amplitude 0.01 m has a total mechanical energy of 160 J. Its A linear harmonic oscillator of force constant 2×10^6 N/m and amplitude 0.01 m has a total mechanical energy of 160 J. Its August 25, 2020 Category: Chapter 15 - SHM , NEET Last [...]
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Tags: A linear harmonic oscillator of force constant 2×10^6 N/m and amplitude 0.01 m has a total mechanical energy of 160 J. Its ,
In an SHM, restoring force is F=−kx, where k is force constant, x is displacement and A is the amplitude of motion, then the total energy depends upon
25
Aug
In an SHM, restoring force is F=−kx, where k is force constant, x is displacement and A is the amplitude of motion, then the total energy depends upon In an SHM restoring force is F=−kx then the total energy depends upon where k is force constant x is displacement and A is the amplitude of [...]
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Tags: In an SHM , restoring force is F=−kx , then the total energy depends upon , where k is force constant , x is displacement and A is the amplitude of motion ,
The displacement of particle between maximum potential energy position and maximum kinetic energy position in simple harmonic motion is
25
Aug
The displacement of particle between maximum potential energy position and maximum kinetic energy position in simple harmonic motion is The displacement of particle between maximum potential energy position and maximum kinetic energy position in simple harmonic motion is August 25, 2020 Category: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 [...]
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Tags: The displacement of particle between maximum potential energy position and maximum kinetic energy position in simple harmonic motion is ,
A particle of mass m oscillates with simple harmonic motion between points x1​ and x2​, the equilibrium position being O. Its potential energy is plotted. It will be as given below in the graph:
25
Aug
A particle of mass m oscillates with simple harmonic motion between points x1​ and x2​, the equilibrium position being O. Its potential energy is plotted. It will be as given below in the graph: A particle of mass m oscillates with simple harmonic motion between points x1​ and x2​ the equilibrium position being O. Its [...]
Posted in: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: A particle of mass m oscillates with simple harmonic motion between points x1​ and x2​ , the equilibrium position being O. Its potential energy is plotted. It will be as given below in the graph: ,
The potential energy of a simple harmonic oscillator when the particle is half way to its end point is
25
Aug
The potential energy of a simple harmonic oscillator when the particle is half way to its end point is The potential energy of a simple harmonic oscillator when the particle is half way to its end point is August 25, 2020 Category: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 [...]
Posted in: Chapter 15 - SHM , NEET Last 32 Years Solved 1988 - 2019 Physics and Chemistry Video Solutions , Physics ,
Tags: The potential energy of a simple harmonic oscillator when the particle is half way to its end point is ,