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A particle of mass m is moving along a path whose equations is given by y = a sin wt. Its KE is given by
07
Nov
A particle of mass m is moving along a path whose equations is given by y = a sin wt. Its KE is given by A particle of mass m is moving along a path whose equations is given by y = a sin wt. Its KE is given by November 7, 2020 Category: Chapter [...]
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Tags: A particle of mass m is moving along a path whose equations is given by y = a sin wt. Its KE is given by ,
A body executes S.H.M with an amplitude A. at a distance a/√2 from the mean position, the correct relation between KE and PE is
07
Nov
A body executes S.H.M with an amplitude A. at a distance a/√2 from the mean position, the correct relation between KE and PE is A body executes S.H.M with an amplitude A. at a distance a/√2 from the mean position the correct relation between KE and PE is November 7, 2020 Category: Chapter 11 - [...]
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Tags: A body executes S.H.M with an amplitude A. at a distance a/√2 from the mean position , the correct relation between KE and PE is ,
The average total energy in one time period of a particle of mass m executing SHM of amplitude a and angular velocity ω is
07
Nov
The average total energy in one time period of a particle of mass m executing SHM of amplitude a and angular velocity ω is The average total energy in one time period of a particle of mass m executing SHM of amplitude a and angular velocity ω is November 7, 2020 Category: Chapter 11 - [...]
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Tags: The average total energy in one time period of a particle of mass m executing SHM of amplitude a and angular velocity ω is ,
At a displacement from the equilibrium position that is one – half the amplitude of oscillation, what fraction of the total energy of the oscillator is kinetic energy ?
07
Nov
At a displacement from the equilibrium position that is one – half the amplitude of oscillation, what fraction of the total energy of the oscillator is kinetic energy ? At a displacement from the equilibrium position that is one - half the amplitude of oscillation what fraction of the total energy of the oscillator is [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: At a displacement from the equilibrium position that is one - half the amplitude of oscillation , what fraction of the total energy of the oscillator is kinetic energy ? ,
A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is 4/1​, its displacement from its mean position is
07
Nov
A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is 4/1​, its displacement from its mean position is A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is 4/1​ its displacement [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is 4/1​ , its displacement from its mean position is ,
The total energy of the particle executing simple harmonic motion of amplitude A i 100 J. At a distance of 0.707 A from the mean position, its kinetic energy is
07
Nov
The total energy of the particle executing simple harmonic motion of amplitude A i 100 J. At a distance of 0.707 A from the mean position, its kinetic energy is its kinetic energy is The total energy of the particle executing simple harmonic motion of amplitude A i 100 J. At a distance of 0.707 [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: its kinetic energy is , The total energy of the particle executing simple harmonic motion of amplitude A i 100 J. At a distance of 0.707 A from the mean position ,
The kinetic energy of a particle executing simple harmonic motion is 1/6th of its maximum value at a distance of 5 cm from its equilibrium position. The amplitude of its motion is
07
Nov
The kinetic energy of a particle executing simple harmonic motion is 1/6th of its maximum value at a distance of 5 cm from its equilibrium position. The amplitude of its motion is The kinetic energy of a particle executing simple harmonic motion is 1/6th of its maximum value at a distance of 5 cm from [...]
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Tags: The kinetic energy of a particle executing simple harmonic motion is 1/6th of its maximum value at a distance of 5 cm from its equilibrium position. The amplitude of its motion is ,
A particle starts oscillating simple harmonically from its equilibrium position with time period T. the ratio of kinetic energy and potential energy of the particle at the same time T/12 is : (T = time period)
07
Nov
A particle starts oscillating simple harmonically from its equilibrium position with time period T. the ratio of kinetic energy and potential energy of the particle at the same time T/12 is : (T = time period) In SHM amplitude of kinetic energy is 1/4th of the total energy at a displacement equal to November 7, [...]
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Tags: In SHM amplitude of kinetic energy is 1/4th of the total energy at a displacement equal to ,
The kinetic energy and potential energy of a particle executing SHM will be equal to 1/8th of potential energy when its displacement from the mean position is ( where a is the amplitude)
07
Nov
The kinetic energy and potential energy of a particle executing SHM will be equal to 1/8th of potential energy when its displacement from the mean position is ( where a is the amplitude) The kinetic energy and potential energy of a particle executing SHM will be equal to 1/8th of potential energy when its displacement [...]
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Tags: The kinetic energy and potential energy of a particle executing SHM will be equal to 1/8th of potential energy when its displacement from the mean position is ( where a is the amplitude) ,
A certain simple harmonic vibrator of mass 0.1 kg has a total energy of 10 J. Its displacement from the mean position is 1 cm when it has equal kinetic and potential energies. The amplitude A and frequency n of vibration of the vibrator are
07
Nov
A certain simple harmonic vibrator of mass 0.1 kg has a total energy of 10 J. Its displacement from the mean position is 1 cm when it has equal kinetic and potential energies. The amplitude A and frequency n of vibration of the vibrator are In SHM amplitude of kinetic energy is 1/4th of the [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: In SHM amplitude of kinetic energy is 1/4th of the total energy at a displacement equal to ,