MTG NEET Physics

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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) ,
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 [...]
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? ,
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 . ,