Part 1

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If the ratio of the mechanical energy of a mass whose oscillations are damped to that of its free oscillations is e−3t/m , then the ratio of the amplitudes of the damped oscillations to that of free oscillations is
08
Nov
If the ratio of the mechanical energy of a mass whose oscillations are damped to that of its free oscillations is e−3t/m , then the ratio of the amplitudes of the damped oscillations to that of free oscillations is If the ratio of the mechanical energy of a mass whose oscillations are damped to that [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: If the ratio of the mechanical energy of a mass whose oscillations are damped to that of its free oscillations is e−3t/m , then the ratio of the amplitudes of the damped oscillations to that of free oscillations is ,
A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30∘. Then (g=9.8m/s^2
08
Nov
A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30∘. Then (g=9.8m/s^2 A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30∘. Then (g=9.8m/s^2 November 8, 2020 Category: Chapter 11 - SHM , MTG NEET Physics , [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30∘. Then (g=9.8m/s^2 ,
A block A of mass m connected with a spring of force constant k is executing SHM. The displacement time equation of the block is x=x0=asinωt. An identical block B moving towards negative x -axis with velocity v0 collides elastically with block A at time t=0. Then
08
Nov
A block A of mass m connected with a spring of force constant k is executing SHM. The displacement time equation of the block is x=x0=asinωt. An identical block B moving towards negative x -axis with velocity v0 collides elastically with block A at time t=0. Then density of the material of the bob is [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: density of the material of the bob is = 9/8 × 10^3kg/m^3 , density of water = 1 g/cc) , The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water ,
The figure shows a graph between velocity and displacement (from mean position) of a particle performing SHM:
08
Nov
The figure shows a graph between velocity and displacement (from mean position) of a particle performing SHM: The figure shows a graph between velocity and displacement (from mean position) of a particle performing SHM: November 8, 2020 Category: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: The figure shows a graph between velocity and displacement (from mean position) of a particle performing SHM: ,
Two particles undergo SHM along the same line with the same time period (T) and equal amplitude (A). At a particular instant one is at x=A and the other is at x=0. They move in the opposite direction they will cross each other at
08
Nov
Two particles undergo SHM along the same line with the same time period (T) and equal amplitude (A). At a particular instant one is at x=A and the other is at x=0. They move in the opposite direction they will cross each other at density of the material of the bob is = 9/8 × [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: density of the material of the bob is = 9/8 × 10^3kg/m^3 , density of water = 1 g/cc) , The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water ,
A mass M is suspended from a light spring. An additional mass m added displaces the spring further by a distance X. Now the combined mass will oscillate on the spring with period
08
Nov
A mass M is suspended from a light spring. An additional mass m added displaces the spring further by a distance X. Now the combined mass will oscillate on the spring with period A mass M is suspended from a light spring. An additional mass m added displaces the spring further by a distance X. [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: A mass M is suspended from a light spring. An additional mass m added displaces the spring further by a distance X. Now the combined mass will oscillate on the spring with period ,
A simple pendulum of length ‘l’ has maximum angular displacement ‘θ’. The maximum kinetic energy of the bob of mass ‘m’ is : (g = acceleration due to gravity)
08
Nov
A simple pendulum of length ‘l’ has maximum angular displacement ‘θ’. The maximum kinetic energy of the bob of mass ‘m’ is : (g = acceleration due to gravity) The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water ,
The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water, density of the material of the bob is = 9/8 × 10^3kg/m^3, density of water = 1 g/cc)
08
Nov
The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water, density of the material of the bob is = 9/8 × 10^3kg/m^3, density of water = 1 g/cc) density of the material of the bob [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: density of the material of the bob is = 9/8 × 10^3kg/m^3 , density of water = 1 g/cc) , The bob of a simple pendulum performs SHM with period T in air and with period T1 in water. Relation between T and T1 is (neglect friction due to water ,
The time-period of a simple pendulum of length root 5 m suspended in a car moving with uniform acceleration of 5ms^−2 in a horizontal straight road is (g=10ms^−2 ):
08
Nov
The time-period of a simple pendulum of length root 5 m suspended in a car moving with uniform acceleration of 5ms^−2 in a horizontal straight road is (g=10ms^−2 ): The time-period of a simple pendulum of length root 5 m suspended in a car moving with uniform acceleration of 5ms^−2 in a horizontal straight road [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
Tags: The time-period of a simple pendulum of length root 5 m suspended in a car moving with uniform acceleration of 5ms^−2 in a horizontal straight road is (g=10ms^−2 ): ,
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 [...]
Posted in: Chapter 11 - SHM , MTG NEET Physics , Part 1 ,
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) ,