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A body vibrating simple harmonic motion with frequency f. The frequency of its kinetic energy will be
08
Nov
A body vibrating simple harmonic motion with frequency f. The frequency of its kinetic energy will be A body vibrating simple harmonic motion with frequency f. The frequency of its kinetic energy will be November 8, 2020 Category: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
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A particle is executing linear simple harmonic motion. The fraction of the total energy that is potential, when its displacement is (1)/(4) of its amplitude is
08
Nov
A particle is executing linear simple harmonic motion. The fraction of the total energy that is potential, when its displacement is (1)/(4) of its amplitude is A particle is executing linear simple harmonic motion. The fraction of the total energy that is potential when its displacement is (1)/(4) of its amplitude is November 8, 2020 [...]
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Tags: A particle is executing linear simple harmonic motion. The fraction of the total energy that is potential , when its displacement is (1)/(4) of its amplitude is ,
A small mass executes linear SHM about O with amplitude a and period T. Find Its displacement from O at time T/8 after passing through O is.
08
Nov
A small mass executes linear SHM about O with amplitude a and period T. Find Its displacement from O at time T/8 after passing through O is. A small mass executes linear SHM about O with amplitude a and period T. Find Its displacement from O at time T/8 after passing through O is. November [...]
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Tags: A small mass executes linear SHM about O with amplitude a and period T. Find Its displacement from O at time T/8 after passing through O is. ,
A particle executes simple harmonic motion along a straight line with mean position at x=0 and period of 20 s and amplitude of 5 cm. The shortest time taken by the particle to go from x=4cm to x=−3cm is
08
Nov
A particle executes simple harmonic motion along a straight line with mean position at x=0 and period of 20 s and amplitude of 5 cm. The shortest time taken by the particle to go from x=4cm to x=−3cm is A particle executes simple harmonic motion between x = - A and x = + A [...]
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Tags: A particle executes simple harmonic motion between x = - A and x = + A .The time taken by it to go from O to A /2 is T1 and to go from A /2 to A is T 2. Then ,
Two particles execute S.H.M of same amplitude and frequency along the same straight line from same mean position. They pass one another without collision, when going in opposite direction, each time their displacement is half of their amplitude. The phase-difference between them is
08
Nov
Two particles execute S.H.M of same amplitude and frequency along the same straight line from same mean position. They pass one another without collision, when going in opposite direction, each time their displacement is half of their amplitude. The phase-difference between them is each time their displacement is half of their amplitude. The phase-difference between [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: each time their displacement is half of their amplitude. The phase-difference between them is , Two particles execute S.H.M of same amplitude and frequency along the same straight line from same mean position. They pass one another without collision , when going in opposite direction ,
Two bodies performing S.H.M. have same amplitude and frequency. Their phases at a certain instant are as shown in the figure. The phase difference between them is
08
Nov
Two bodies performing S.H.M. have same amplitude and frequency. Their phases at a certain instant are as shown in the figure. The phase difference between them is Two bodies performing S.H.M. have same amplitude and frequency. Their phases at a certain instant are as shown in the figure. The phase difference between them is November [...]
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Tags: Two bodies performing S.H.M. have same amplitude and frequency. Their phases at a certain instant are as shown in the figure. The phase difference between them is ,
The figure shows the circular motion of a particle of a reference particle to represent simple harmonic motion. The amplitude of SHM is
08
Nov
The figure shows the circular motion of a particle of a reference particle to represent simple harmonic motion. The amplitude of SHM is The figure shows the circular motion of a particle of a reference particle to represent simple harmonic motion. The amplitude of SHM is November 8, 2020 Category: Chapter 11 - SHM , [...]
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Tags: The figure shows the circular motion of a particle of a reference particle to represent simple harmonic motion. The amplitude of SHM is ,
A particle executes simple harmonic motion between x = – A and x = + A .The time taken by it to go from O to A /2 is T1 and to go from A /2 to A is T 2. Then
08
Nov
A particle executes simple harmonic motion between x = – A and x = + A .The time taken by it to go from O to A /2 is T1 and to go from A /2 to A is T 2. Then A particle executes simple harmonic motion between x = - A and x [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A particle executes simple harmonic motion between x = - A and x = + A .The time taken by it to go from O to A /2 is T1 and to go from A /2 to A is T 2. Then ,
The amplitude of SHM. y=2(sin 5 pi t+sqrt(2)cos 5 pi t) is
08
Nov
The amplitude of SHM. y=2(sin 5 pi t+sqrt(2)cos 5 pi t) is The amplitude of SHM. y=2(sin 5 pi t+sqrt(2)cos 5 pi t) is November 8, 2020 Category: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
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Tags: The amplitude of SHM. y=2(sin 5 pi t+sqrt(2)cos 5 pi t) is ,
A particle is subjected simultaneously to two SHM’s one along the x axis and the other along the y – axis. The two vibrations are in phase and have unequal amplitudes. The particles will execute.
08
Nov
A particle is subjected simultaneously to two SHM’s one along the x axis and the other along the y – axis. The two vibrations are in phase and have unequal amplitudes. The particles will execute. A particle is subjected simultaneously to two SHM's one along the x axis and the other along the y - [...]
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Tags: A particle is subjected simultaneously to two SHM's one along the x axis and the other along the y - axis. The two vibrations are in phase and have unequal amplitudes. The particles will execute. ,