Chapter 11 – SHM

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A simple pendulum of length ′ L ′ has mass ′ M ′ and it oscillates freely with amplitude ′ A ′. At extreme position, its potential energy is (g= acceleration due to gravity)
08
Nov
A simple pendulum of length ′ L ′ has mass ′ M ′ and it oscillates freely with amplitude ′ A ′. At extreme position, its potential energy is (g= acceleration due to gravity) A simple pendulum of length ′ L ′ has mass ′ M ′ and it oscillates freely with amplitude ′ A [...]
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Tags: A simple pendulum of length ′ L ′ has mass ′ M ′ and it oscillates freely with amplitude ′ A ′. At extreme position , its potential energy is (g= acceleration due to gravity) ,
Two simple pendulums A and B are made to oscillate simultaneously and it is found that A completes 10 oscillations in 20 sec and B completes 8 oscillations in 10 sec. The ratio of the lengths of A and B is
08
Nov
Two simple pendulums A and B are made to oscillate simultaneously and it is found that A completes 10 oscillations in 20 sec and B completes 8 oscillations in 10 sec. The ratio of the lengths of A and B is A massless spring of length l and spring constant k is placed vertically on [...]
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Tags: A massless spring of length l and spring constant k is placed vertically on a table. A ball of mass m is just kept on top of the spring. The maximum velocity of the ball is? ,
A particle of mass 3kg, attached to a spring with force constant 48 N/m execute simple harmonic motion on a frictionless horizontal surface. The time period of oscillation of the particle, in seconds, is?
08
Nov
A particle of mass 3kg, attached to a spring with force constant 48 N/m execute simple harmonic motion on a frictionless horizontal surface. The time period of oscillation of the particle, in seconds, is? A particle of mass 3kg attached to a spring with force constant 48 N/m execute simple harmonic motion on a frictionless [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A particle of mass 3kg , attached to a spring with force constant 48 N/m execute simple harmonic motion on a frictionless horizontal surface. The time period of oscillation of the particle , in seconds , is ,
A massless spring of length l and spring constant k is placed vertically on a table. A ball of mass m is just kept on top of the spring. The maximum velocity of the ball is?
08
Nov
A massless spring of length l and spring constant k is placed vertically on a table. A ball of mass m is just kept on top of the spring. The maximum velocity of the ball is? A massless spring of length l and spring constant k is placed vertically on a table. A ball of [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A massless spring of length l and spring constant k is placed vertically on a table. A ball of mass m is just kept on top of the spring. The maximum velocity of the ball is? ,
Two simple pendulums of lengths in the ratio 4:1 start oscillating at t=0 . They will again be in phase after the shorter pendulum has made n oscillations. Find the value of n .
08
Nov
Two simple pendulums of lengths in the ratio 4:1 start oscillating at t=0 . They will again be in phase after the shorter pendulum has made n oscillations. Find the value of n . Two simple pendulums of lengths in the ratio 4:1 start oscillating at t=0 . They will again be in phase after [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: Two simple pendulums of lengths in the ratio 4:1 start oscillating at t=0 . They will again be in phase after the shorter pendulum has made n oscillations. Find the value of n . ,
A particle is executing SHM. At any instant, the particle is at mid-point of mean and extreme position. What is the potential energy in terms of the total energy (E) ?
08
Nov
A particle is executing SHM. At any instant, the particle is at mid-point of mean and extreme position. What is the potential energy in terms of the total energy (E) ? A particle is executing SHM. At any instant the particle is at mid-point of mean and extreme position. What is the potential energy in [...]
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Tags: A particle is executing SHM. At any instant , the particle is at mid-point of mean and extreme position. What is the potential energy in terms of the total energy (E) ? ,
A particle starts oscillating simple harmonically from its equilibrium position with the time period T. The ratio of kinetic energy and potential energy of the particle at the same time T/12 is :
08
Nov
A particle starts oscillating simple harmonically from its equilibrium position with the time period T. The ratio of kinetic energy and potential energy of the particle at the same time T/12 is : A particle starts oscillating simple harmonically from its equilibrium position with the time period T. The ratio of kinetic energy and potential [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A particle starts oscillating simple harmonically from its equilibrium position with the time period T. The ratio of kinetic energy and potential energy of the particle at the same time T/12 is : ,
The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j, find the time period.-duplicate-4
08
Nov
The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j, find the time period.-duplicate-4 find the time period.-duplicate-4 The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: find the time period.-duplicate-4 , The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j ,
The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j, find the time period.
08
Nov
The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j, find the time period. find the time period. The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: find the time period. , The potential energy of a harmonic oscillator of mass 2 kg in its equilibrium position is 5J. If amplitude of oscillations is 0.01m and total energy is 9 j ,
The displacement of a particle of mass 3 gm executing simple harmonic motion is given by y=3sin(0.2t) in SI units. The kinetic energy of the particle at a point which is at a distance equal to 3/1 of its amplitude from its mean position is
08
Nov
The displacement of a particle of mass 3 gm executing simple harmonic motion is given by y=3sin(0.2t) in SI units. The kinetic energy of the particle at a point which is at a distance equal to 3/1 of its amplitude from its mean position is A small mass executes linear SHM about O with amplitude [...]
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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. ,