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10. Oscillations
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  • Question 1/170
    4 / -1
    Mark Review

    A particle executes simple harmonic motion with an amplitude of 4cm. At the mean position, velocity of the particle is 10cm∕ s. The distance of the particle from the mean position when its speed becomes 5cm∕ s is √α cm, where α = ___

    [27-Jan-2024 Shift 1]

    A particle executes simple harmonic motion with an amplitude of 4cm. At the mean position, velocity of the particle is 10cm∕ s. The distance of the particle from the mean position when its speed becomes 5cm∕ s is √α cm, where α = ___

    [27-Jan-2024 Shift 1]

  • Question 2/170
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    Mark Review

    A ball suspended by a thread swings in a vertical plane so that its magnitude of acceleration in the extreme position and lowest position are equal. The angle (θ) of thread deflection in the extreme position will be :

    [27-Jan-2024 Shift 2]

    A ball suspended by a thread swings in a vertical plane so that its magnitude of acceleration in the extreme position and lowest position are equal. The angle (θ) of thread deflection in the extreme position will be :

    [27-Jan-2024 Shift 2]

  • Question 3/170
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    When the displacement of a simple harmonic oscillator is one third of its amplitude, the ratio of total energy to the kinetic energy is x/8, where x =____

    [29-Jan-2024 Shift 1]

    When the displacement of a simple harmonic oscillator is one third of its amplitude, the ratio of total energy to the kinetic energy is x/8, where x =____

    [29-Jan-2024 Shift 1]

  • Question 4/170
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    A simple harmonic oscillator has an amplitude A and time period 6π second. Assuming the oscillation starts from its mean position, the time required by it to travel from x = A to x = √3/2 A will be π/x s, where x = _____:

    [29-Jan-2024 Shift 2]

    A simple harmonic oscillator has an amplitude A and time period 6π second. Assuming the oscillation starts from its mean position, the time required by it to travel from x = A to x = √3/2 A will be π/x s, where x = _____:

    [29-Jan-2024 Shift 2]

  • Question 5/170
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    A simple pendulum is placed at a place where its distance from the earth's surface is equal to the radius of the earth. If the length of the string is 4m, then the time period of small oscillations will be _____s. [. take g = πms−2]

    [30-Jan-2024 Shift 2]

    A simple pendulum is placed at a place where its distance from the earth's surface is equal to the radius of the earth. If the length of the string is 4m, then the time period of small oscillations will be _____s. [. take g = πms−2]

    [30-Jan-2024 Shift 2]

  • Question 6/170
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    Mark Review

    A particle performs simple harmonic motion with amplitude A. Its speed is increased to three times at an instant when its displacement is 2A/3. The new amplitude of motion is nA/3. The value of n is___

    [31-Jan-2024 Shift 1]

    A particle performs simple harmonic motion with amplitude A. Its speed is increased to three times at an instant when its displacement is 2A/3. The new amplitude of motion is nA/3. The value of n is___

    [31-Jan-2024 Shift 1]

  • Question 7/170
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    The time period of simple harmonic motion of mass M in the given figure is π  where the value of α is _____

    [31-Jan-2024 Shift 2]

    The time period of simple harmonic motion of mass M in the given figure is π  where the value of α is _____

    [31-Jan-2024 Shift 2]

  • Question 8/170
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    A mass m is suspended from a spring of negligible mass and the system oscillates with a frequency f1. The frequency of oscillations if a mass 9m is suspended from the same spring is f2. The value of f1/f2 is:

    [1-Feb-2024 Shift 2]

    A mass m is suspended from a spring of negligible mass and the system oscillates with a frequency f1. The frequency of oscillations if a mass 9m is suspended from the same spring is f2. The value of f1/f2 is:

    [1-Feb-2024 Shift 2]

  • Question 9/170
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    For a simple harmonic motion in a mass spring system shown, the surface is frictionless. When the mass of the block is 1kg, the angular frequency is ω1. When the mass block is 2kg the angular frequency is ω2. The ratio ω2ω1 is :

    [30-Jan-2023 Shift 2]
    For a simple harmonic motion in a mass spring system shown, the surface is frictionless. When the mass of the block is 1kg, the angular frequency is ω1. When the mass block is 2kg the angular frequency is ω2. The ratio ω2ω1 is :

    [30-Jan-2023 Shift 2]
  • Question 10/170
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    The velocity of a particle executing SHM varies with displacement (x) as 4v2=50x2. The time period of oscillations is
    x
    7
     s    . The value of x is _______.
    ( Take π=
    22
    7
    )
    [30-Jan-2023 Shift 2]
    The velocity of a particle executing SHM varies with displacement (x) as 4v2=50x2. The time period of oscillations is
    x
    7
     s    . The value of x is _______.
    ( Take π=
    22
    7
    )
    [30-Jan-2023 Shift 2]
  • Question 11/170
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    The maximum potential energy of a block executing simple harmonic motion is 25 J. A is amplitude of oscillation. At A 2, the kinetic energy of the block is
    [31-Jan-2023 Shift 1]
    The maximum potential energy of a block executing simple harmonic motion is 25 J. A is amplitude of oscillation. At A 2, the kinetic energy of the block is
    [31-Jan-2023 Shift 1]
  • Question 12/170
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    In the figure given below. a block of mass M=490g placed on a frictionless table is connected with two springs having same spring constant (K=2Nm1). If the block is horizontally displaced through ' X 'm then the number of complete oscillations it will make in 14π seconds will be _______

    [31-Jan-2023 Shift 1]
    In the figure given below. a block of mass M=490g placed on a frictionless table is connected with two springs having same spring constant (K=2Nm1). If the block is horizontally displaced through ' X 'm then the number of complete oscillations it will make in 14π seconds will be _______

    [31-Jan-2023 Shift 1]
  • Question 13/170
    4 / -1
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    A particle executes simple harmonic motion between x=A and x=+A. If time taken by particle to go from x=0 to
    A
    2
     is 2 s; then time taken by particle in going from x=
    A
    2
     to A is :
    [25-Jan-2023 Shift 2]
    A particle executes simple harmonic motion between x=A and x=+A. If time taken by particle to go from x=0 to
    A
    2
     is 2 s; then time taken by particle in going from x=
    A
    2
     to A is :
    [25-Jan-2023 Shift 2]
  • Question 14/170
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    A particle of mass 250g executes a simple harmonic motion under a periodic force F=(25 x) N. The particle attains a maximum speed of 4m s during its oscillation. The amplitude of the motion is ________ cm.
    [29-Jan-2023 Shift 2]
    A particle of mass 250g executes a simple harmonic motion under a periodic force F=(25 x) N. The particle attains a maximum speed of 4m s during its oscillation. The amplitude of the motion is ________ cm.
    [29-Jan-2023 Shift 2]
  • Question 15/170
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    The general displacement of a simple harmonic oscillator is x=Asinωt. Let T be its time period. The slope of its potential energy (U) - time (t) curve will be maximum when t=
    T
    β
    . The value of β is _______.
    [30-Jan-2023 Shift 1]
    The general displacement of a simple harmonic oscillator is x=Asinωt. Let T be its time period. The slope of its potential energy (U) - time (t) curve will be maximum when t=
    T
    β
    . The value of β is _______.
    [30-Jan-2023 Shift 1]
  • Question 16/170
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    A block of mass 2kg is attached with two identical springs of spring constant 20Nm each. The block is placed on a frictionless surface and the ends of the springs are attached to rigid supports (see figure). When the mass is displaced from its equilibrium position, it executes a simple harmonic motion. The time period of oscillation is
    π
    x
     in SI unit. The value of x is_____

    [24-Jan-2023 Shift 1]
    A block of mass 2kg is attached with two identical springs of spring constant 20Nm each. The block is placed on a frictionless surface and the ends of the springs are attached to rigid supports (see figure). When the mass is displaced from its equilibrium position, it executes a simple harmonic motion. The time period of oscillation is
    π
    x
     in SI unit. The value of x is_____

    [24-Jan-2023 Shift 1]
  • Question 17/170
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    A body of mass 200g is tied to a spring of spring constant 12.5Nm, while the other end of spring is fixed at point O. If the body moves about O in a circular path on a smooth horizontal surface with constant angular speed 5rad s, then the ratio of extension in the spring to its natural length will be :
    [24-Jan-2023 Shift 2]
    A body of mass 200g is tied to a spring of spring constant 12.5Nm, while the other end of spring is fixed at point O. If the body moves about O in a circular path on a smooth horizontal surface with constant angular speed 5rad s, then the ratio of extension in the spring to its natural length will be :
    [24-Jan-2023 Shift 2]
  • Question 18/170
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    A mass m attached to free end of a spring executes SHM with a period of 1 s. If the mass is increased by 3kg the period of oscillation increases by one second, the value of mass m is ___kg.
    [24-Jan-2023 Shift 2]
    A mass m attached to free end of a spring executes SHM with a period of 1 s. If the mass is increased by 3kg the period of oscillation increases by one second, the value of mass m is ___kg.
    [24-Jan-2023 Shift 2]
  • Question 19/170
    4 / -1
    Mark Review
    The general displacement of a simple harmonic oscillator is x=Asinωt. Let T be its time period. The slope of its potential energy (U) - time (t) curve will be maximum when t=
    T
    β
    . The value of β is _______.
    [30-Jan-2023 Shift 1]
    The general displacement of a simple harmonic oscillator is x=Asinωt. Let T be its time period. The slope of its potential energy (U) - time (t) curve will be maximum when t=
    T
    β
    . The value of β is _______.
    [30-Jan-2023 Shift 1]
  • Question 20/170
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    The amplitude of a particle executing SHM is 3 cm. The displacement at which its kinetic energy will be 25% more than the potential energy is:_______ cm.
    [1-Feb-2023 Shift 1]
    The amplitude of a particle executing SHM is 3 cm. The displacement at which its kinetic energy will be 25% more than the potential energy is:_______ cm.
    [1-Feb-2023 Shift 1]
  • Question 21/170
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    Choose the correct length (L) versus square of time period (T2) graph for a simple pendulum executing simple harmonic motion.
    [1-Feb-2023 Shift 2]
    Choose the correct length (L) versus square of time period (T2) graph for a simple pendulum executing simple harmonic motion.
    [1-Feb-2023 Shift 2]
  • Question 22/170
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    A simple pendulum with length 100cm and bob of mass 250g is executing S.H.M. of amplitude 10cm. The maximum tension in the string is found to be
    x
    40
    N    . The value of x is _______.
    [6-Apr-2023 shift 2]
    A simple pendulum with length 100cm and bob of mass 250g is executing S.H.M. of amplitude 10cm. The maximum tension in the string is found to be
    x
    40
    N    . The value of x is _______.
    [6-Apr-2023 shift 2]
  • Question 23/170
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    For particle P revolving round the centre O with radius of circular path r and angular velocity ω, as shown in below figure, the projection of OP on the x-axis at time t is

    [8-Apr-2023 shift 2]
    For particle P revolving round the centre O with radius of circular path r and angular velocity ω, as shown in below figure, the projection of OP on the x-axis at time t is

    [8-Apr-2023 shift 2]
  • Question 24/170
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    A particle executes S.H.M. of amplitude A along x-axis. At t=0, the position of the particle is x=
    A
    2
     and it moves along positives x-axis. The displacement of particle in time t is x=Asin(ωt+δ), then the value δ will be
    [10-Apr-2023 shift 1]
    A particle executes S.H.M. of amplitude A along x-axis. At t=0, the position of the particle is x=
    A
    2
     and it moves along positives x-axis. The displacement of particle in time t is x=Asin(ωt+δ), then the value δ will be
    [10-Apr-2023 shift 1]
  • Question 25/170
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    A rectangular block of mass 5kg attached to a horizontal spiral spring executes simple harmonic motion of amplitude 1m and time period 3.14 s. The maximum force exerted by spring on block is ________ N.
    [10-Apr-2023 shift 2]
    A rectangular block of mass 5kg attached to a horizontal spiral spring executes simple harmonic motion of amplitude 1m and time period 3.14 s. The maximum force exerted by spring on block is ________ N.
    [10-Apr-2023 shift 2]
  • Question 26/170
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    The variation of kinetic energy (KE) of a particle executing simple harmonic motion with the displacement (x) starting from mean position to extreme position (A) is given by
    [11-Apr-2023 shift 1]
    The variation of kinetic energy (KE) of a particle executing simple harmonic motion with the displacement (x) starting from mean position to extreme position (A) is given by
    [11-Apr-2023 shift 1]
  • Question 27/170
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    Mark Review
    A particle is executing simple harmonic motion (SHM). The ratio of potential energy and kinetic energy of the particle when its displacement is half of its amplitude will be
    [12-Apr-2023 shift 1]
    A particle is executing simple harmonic motion (SHM). The ratio of potential energy and kinetic energy of the particle when its displacement is half of its amplitude will be
    [12-Apr-2023 shift 1]
  • Question 28/170
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    Which graph represents the difference between total energy and potential energy of a particle executing SHM vs it's distance from mean position?
    [13-Apr-2023 shift 1]
    Which graph represents the difference between total energy and potential energy of a particle executing SHM vs it's distance from mean position?
    [13-Apr-2023 shift 1]
  • Question 29/170
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    At a given point of time the value of displacement of a simple harmonic oscillator is given as y=Acos(30). If amplitude is 40cm and kinetic energy at that time is 200J, the value of force constant is 1.0×10xNm1. The value of x is _______
    [13-Apr-2023 shift 1]
    At a given point of time the value of displacement of a simple harmonic oscillator is given as y=Acos(30). If amplitude is 40cm and kinetic energy at that time is 200J, the value of force constant is 1.0×10xNm1. The value of x is _______
    [13-Apr-2023 shift 1]
  • Question 30/170
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    A particle executes SHM of amplitude A. The distance from the mean position when its's kinetic energy becomes equal to its potential energy is :
    [13-Apr-2023 shift 2]
    A particle executes SHM of amplitude A. The distance from the mean position when its's kinetic energy becomes equal to its potential energy is :
    [13-Apr-2023 shift 2]
  • Question 31/170
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    In a linear Simple Harmonic Motion (SHM)
    (A) Restoring force is directly proportional to the displacement.
    (B) The acceleration and displacement are opposite in direction.
    (C) The velocity is maximum at mean position.
    (D) The acceleration is minimum at extreme points.
    Choose the correct answer from the options given below :
    [15-Apr-2023 shift 1]
    In a linear Simple Harmonic Motion (SHM)
    (A) Restoring force is directly proportional to the displacement.
    (B) The acceleration and displacement are opposite in direction.
    (C) The velocity is maximum at mean position.
    (D) The acceleration is minimum at extreme points.
    Choose the correct answer from the options given below :
    [15-Apr-2023 shift 1]
  • Question 32/170
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    Two massless springs with spring constants 2k and 9k, carry 50g and 100g masses at their free ends. These two masses oscillate vertically such that their maximum velocities are equal. Then, the ratio of their respective amplitudes will be:
    [24-Jun-2022-Shift-2]
    Two massless springs with spring constants 2k and 9k, carry 50g and 100g masses at their free ends. These two masses oscillate vertically such that their maximum velocities are equal. Then, the ratio of their respective amplitudes will be:
    [24-Jun-2022-Shift-2]
  • Question 33/170
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    The displacement of simple harmonic oscillator after 3 seconds starting from its mean position is equal to half of its amplitude. The time period of harmonic motion is :
    [27-Jun-2022-Shift-1]
    The displacement of simple harmonic oscillator after 3 seconds starting from its mean position is equal to half of its amplitude. The time period of harmonic motion is :
    [27-Jun-2022-Shift-1]
  • Question 34/170
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    The equation of a particle executing simple harmonic motion is given by x=sinπ(t+
    1
    3
    )    m    . At t=1s, the speed of particle will be
    (Given : π=3.14 )
    [27-Jun-2022-Shift-2]
    The equation of a particle executing simple harmonic motion is given by x=sinπ(t+
    1
    3
    )    m    . At t=1s, the speed of particle will be
    (Given : π=3.14 )
    [27-Jun-2022-Shift-2]
  • Question 35/170
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    A particle executes simple harmonic motion. Its amplitude is 8cm and time period is 6s. The time it will take to travel from its position of maximum displacement to the point corresponding to half of its amplitude, is s.
    [27-Jun-2022-Shift-2]
    A particle executes simple harmonic motion. Its amplitude is 8cm and time period is 6s. The time it will take to travel from its position of maximum displacement to the point corresponding to half of its amplitude, is s.
    [27-Jun-2022-Shift-2]
  • Question 36/170
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    A body is performing simple harmonic with an amplitude of 10cm. The velocity of the body was tripled by air jet when it is at 5 cm from its mean position. The new amplitude of vibration is xcm. The value of x is____
    [29-Jun-2022-Shift-1]
    A body is performing simple harmonic with an amplitude of 10cm. The velocity of the body was tripled by air jet when it is at 5 cm from its mean position. The new amplitude of vibration is xcm. The value of x is____
    [29-Jun-2022-Shift-1]
  • Question 37/170
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    The motion of a simple pendulum executing S.H.M. is represented by the following equation.
    y=Asin(πt+φ), where time is measured in second. The length of pendulum is
    [29-Jun-2022-Shift-2]
    The motion of a simple pendulum executing S.H.M. is represented by the following equation.
    y=Asin(πt+φ), where time is measured in second. The length of pendulum is
    [29-Jun-2022-Shift-2]
  • Question 38/170
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    In figure (A), mass '2 m' is fixed on mass ' m ' which is attached to two springs of spring constant k. In figure (B), mass ' m ' is attached to two springs of spring constant ' k ' and ' 2k. If mass ' m ' in (A) and in (B) are displaced by distance ' x ' horizontally and then released, then time period T1 and T2 corresponding to (A) and (B) respectively follow the relation.
    [25-Jul-2022-Shift-1]

    In figure (A), mass '2 m' is fixed on mass ' m ' which is attached to two springs of spring constant k. In figure (B), mass ' m ' is attached to two springs of spring constant ' k ' and ' 2k. If mass ' m ' in (A) and in (B) are displaced by distance ' x ' horizontally and then released, then time period T1 and T2 corresponding to (A) and (B) respectively follow the relation.
    [25-Jul-2022-Shift-1]
  • Question 39/170
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    The length of a seconds pendulum at a height h=2R from earth surface will be:
    (Given R= Radius of earth and acceleration due to gravity at the surface of earth, g=π2ms2 )
    [25-Jul-2022-Shift-2]
    The length of a seconds pendulum at a height h=2R from earth surface will be:
    (Given R= Radius of earth and acceleration due to gravity at the surface of earth, g=π2ms2 )
    [25-Jul-2022-Shift-2]
  • Question 40/170
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    Two waves executing simple harmonic motions travelling in the same direction with same amplitude and frequency are superimposed. The resultant amplitude is equal to the 3 times of amplitude of individual motions. The phase difference between the two motions is ____(degree).
    [25-Jul-2022-Shift-2]
    Two waves executing simple harmonic motions travelling in the same direction with same amplitude and frequency are superimposed. The resultant amplitude is equal to the 3 times of amplitude of individual motions. The phase difference between the two motions is ____(degree).
    [25-Jul-2022-Shift-2]
  • Question 41/170
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    When a particle executes Simple Hormonic Motion, the nature of graph of velocity as a function of displacement will be :
    [26-Jul-2022-Shift-1]
    When a particle executes Simple Hormonic Motion, the nature of graph of velocity as a function of displacement will be :
    [26-Jul-2022-Shift-1]
  • Question 42/170
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    As per given figures, two springs of spring constants k and 2k are connected to mass m. If the period of oscillation in figure (a) is 3s, then the period of oscillation in figure (b) will be xs. The value of x is ________.

    [26-Jul-2022-Shift-2]
    As per given figures, two springs of spring constants k and 2k are connected to mass m. If the period of oscillation in figure (a) is 3s, then the period of oscillation in figure (b) will be xs. The value of x is ________.

    [26-Jul-2022-Shift-2]
  • Question 43/170
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    Two identical positive charges Q each are fixed at a distance of '2a' apart from each other. Another point charge q0 with mass ' m ' is placed at midpoint between two fixed charges. For a small displacement along the line joining the fixed charges, the charge q0 executes SHM. The time period of oscillation of charge q0 will be :
    [27-Jul-2022-Shift-1]
    Two identical positive charges Q each are fixed at a distance of '2a' apart from each other. Another point charge q0 with mass ' m ' is placed at midpoint between two fixed charges. For a small displacement along the line joining the fixed charges, the charge q0 executes SHM. The time period of oscillation of charge q0 will be :
    [27-Jul-2022-Shift-1]
  • Question 44/170
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    Two bar magnets oscillate in a horizontal plane in earth's magnetic field with time periods of 3s and 4s respectively. If their moments of inertia are in the ratio of 3:2, then the ratio of their magnetic moments will be:
    [27-Jul-2022-Shift-1]
    Two bar magnets oscillate in a horizontal plane in earth's magnetic field with time periods of 3s and 4s respectively. If their moments of inertia are in the ratio of 3:2, then the ratio of their magnetic moments will be:
    [27-Jul-2022-Shift-1]
  • Question 45/170
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    A mass 0.9kg, attached to a horizontal spring, executes SHM with an amplitude A1. When this mass passes through its mean position, then a smaller mass of 124g is placed over it and both masses move together with amplitude A2. If the ratio
    A1
    A2
     is
    α
    α1
    , then the value of α will be ________.
    [27-Jul-2022-Shift-1]
    A mass 0.9kg, attached to a horizontal spring, executes SHM with an amplitude A1. When this mass passes through its mean position, then a smaller mass of 124g is placed over it and both masses move together with amplitude A2. If the ratio
    A1
    A2
     is
    α
    α1
    , then the value of α will be ________.
    [27-Jul-2022-Shift-1]
  • Question 46/170
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    A compass needle of oscillation magnetometer oscillates 20 times per minute at a place P of dip30. The number of oscillations per minute become 10 at another place Q of 60 dip. The ratio of the total magnetic field at the two places (BQ:BP) is :
    [27-Jul-2022-Shift-2]
    A compass needle of oscillation magnetometer oscillates 20 times per minute at a place P of dip30. The number of oscillations per minute become 10 at another place Q of 60 dip. The ratio of the total magnetic field at the two places (BQ:BP) is :
    [27-Jul-2022-Shift-2]
  • Question 47/170
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    The potential energy of a particle of mass 4kg in motion along the x-axis is given by U=4(1cos4x)J. The time period of the particle for small oscillation ( sinθθ) is (
    π
    K
    )    s    . The value of K is ________.
    [28-Jul-2022-Shift-2]
    The potential energy of a particle of mass 4kg in motion along the x-axis is given by U=4(1cos4x)J. The time period of the particle for small oscillation ( sinθθ) is (
    π
    K
    )    s    . The value of K is ________.
    [28-Jul-2022-Shift-2]
  • Question 48/170
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    The time period of oscillation of a simple pendulum of length L suspended from the roof of a vehicle, which moves without friction down an inclined plane of inclination α, is given by :
    [29-Jul-2022-Shift-1]
    The time period of oscillation of a simple pendulum of length L suspended from the roof of a vehicle, which moves without friction down an inclined plane of inclination α, is given by :
    [29-Jul-2022-Shift-1]
  • Question 49/170
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    The metallic bob of simple pendulum has the relative density 5 . The time period of this pendulum is 10s. If the metallic bob is immersed in water, then the new time period becomes 5xs. The value of x will be ______.
    [29-Jul-2022-Shift-2]
    The metallic bob of simple pendulum has the relative density 5 . The time period of this pendulum is 10s. If the metallic bob is immersed in water, then the new time period becomes 5xs. The value of x will be ______.
    [29-Jul-2022-Shift-2]
  • Question 50/170
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    When a particle executes SHM, the nature of graphical representation of velocity as a function of displacement is
    [24 Feb 2021 Shift 2]
    When a particle executes SHM, the nature of graphical representation of velocity as a function of displacement is
    [24 Feb 2021 Shift 2]
  • Question 51/170
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    Given below are two statements:
    Statement I A second's pendulum has a time period of 1s.
    Statement II It takes precisely one second to move between the two extreme positions.
    In the light of the above statements, choose the correct answer from the options given below.
    [26 Feb 2021 Shift 2]
    Given below are two statements:
    Statement I A second's pendulum has a time period of 1s.
    Statement II It takes precisely one second to move between the two extreme positions.
    In the light of the above statements, choose the correct answer from the options given below.
    [26 Feb 2021 Shift 2]
  • Question 52/170
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    Time period of a simple pendulum is T. The time taken to complete 58 oscillations starting from mean position is
    α
    β
    T    . The value of α is ......... .
    [26 Feb 2021 Shift 2]
    Time period of a simple pendulum is T. The time taken to complete 58 oscillations starting from mean position is
    α
    β
    T    . The value of α is ......... .
    [26 Feb 2021 Shift 2]
  • Question 53/170
    4 / -1
    Mark Review
    If two similar springs each of spring constant K1 are joined in series, the new spring constant and time period would be changed by a factor
    [26 Feb 2021 Shift 1]
    If two similar springs each of spring constant K1 are joined in series, the new spring constant and time period would be changed by a factor
    [26 Feb 2021 Shift 1]
  • Question 54/170
    4 / -1
    Mark Review
    Assume that a tunnel is dug along a chord of the earth, at a perpendicular distance (
    R
    2
    )     from the earth's centre, where R is the radius of the earth. The wall of the tunnel is frictionless. If a particle is released in this tunnel, it will execute a simple harmonic motion with a time period?
    [26 Feb 2021 Shift 1]
    Assume that a tunnel is dug along a chord of the earth, at a perpendicular distance (
    R
    2
    )     from the earth's centre, where R is the radius of the earth. The wall of the tunnel is frictionless. If a particle is released in this tunnel, it will execute a simple harmonic motion with a time period?
    [26 Feb 2021 Shift 1]
  • Question 55/170
    4 / -1
    Mark Review
    Two identical springs of spring constant 2k are attached to a block of mass m and to fixed support (see figure). When the mass is displaced from equilibrium position on either side, it executes simple harmonic motion. The time period of oscillations of this system is

    [25 Feb 2021 Shift 2]
    Two identical springs of spring constant 2k are attached to a block of mass m and to fixed support (see figure). When the mass is displaced from equilibrium position on either side, it executes simple harmonic motion. The time period of oscillations of this system is

    [25 Feb 2021 Shift 2]
  • Question 56/170
    4 / -1
    Mark Review
    If the time period of a 2m long simple pendulum is 2s, the acceleration due to gravity at the place, where pendulum is executing SHM is
    [25 Feb 2021 Shift 1]
    If the time period of a 2m long simple pendulum is 2s, the acceleration due to gravity at the place, where pendulum is executing SHM is
    [25 Feb 2021 Shift 1]
  • Question 57/170
    4 / -1
    Mark Review
    In the given figure, a body of mass M is held between two massless springs, on a smooth inclined plane. The free ends of the springs are attached to firm supports. If each spring has spring constant k, then the frequency of oscillation of given body is

    [24 Feb 2021 Shift 2]
    In the given figure, a body of mass M is held between two massless springs, on a smooth inclined plane. The free ends of the springs are attached to firm supports. If each spring has spring constant k, then the frequency of oscillation of given body is

    [24 Feb 2021 Shift 2]
  • Question 58/170
    4 / -1
    Mark Review
    A particle is projected with velocity v0 along x-axis. A damping force is acting on the particle which is proportional to the square of the distance from the origin, i.e. ma=αx2. The distance at which the particle stops is
    [24 Feb 2021 Shift 2]
    A particle is projected with velocity v0 along x-axis. A damping force is acting on the particle which is proportional to the square of the distance from the origin, i.e. ma=αx2. The distance at which the particle stops is
    [24 Feb 2021 Shift 2]
  • Question 59/170
    4 / -1
    Mark Review
    A student is performing the experiment of resonance column. The diameter of the column tube is 6cm. The frequency of the tuning fork is 504Hz. Speed of the sound at the given temperature is 336ms. The zero of the meter scale coincides with the top end of the resonance column tube. The reading of the water level in the column when the first resonance occurs is
    [25 Feb 2021 Shift 1]
    A student is performing the experiment of resonance column. The diameter of the column tube is 6cm. The frequency of the tuning fork is 504Hz. Speed of the sound at the given temperature is 336ms. The zero of the meter scale coincides with the top end of the resonance column tube. The reading of the water level in the column when the first resonance occurs is
    [25 Feb 2021 Shift 1]
  • Question 60/170
    4 / -1
    Mark Review
    A particle executes SHM, the graph of velocity as a function of displacement is
    [26 Feb 2021 Shift 2]
    A particle executes SHM, the graph of velocity as a function of displacement is
    [26 Feb 2021 Shift 2]
  • Question 61/170
    4 / -1
    Mark Review
    A particle executes SHM with amplitude a and time period T. The displacement of the particle when its speed is half of maximum speed is
    xa
    2
    . The value of x is ........... .
    [26 Feb 2021 Shift 2]
    A particle executes SHM with amplitude a and time period T. The displacement of the particle when its speed is half of maximum speed is
    xa
    2
    . The value of x is ........... .
    [26 Feb 2021 Shift 2]
  • Question 62/170
    4 / -1
    Mark Review
    Y=Asin(ωt+φ0) is the time-displacement equation of SHM. At t=0, the displacement of the particle is Y=
    A
    2
     and it is moving along negative x-direction. Then, the initial phase angle φ0 will be
    [25 Feb 2021 Shift 2]
    Y=Asin(ωt+φ0) is the time-displacement equation of SHM. At t=0, the displacement of the particle is Y=
    A
    2
     and it is moving along negative x-direction. Then, the initial phase angle φ0 will be
    [25 Feb 2021 Shift 2]
  • Question 63/170
    4 / -1
    Mark Review
    The point A moves with a uniform speed along the circumference of a circle of radius 0.36m and covers 30 in 0.1s. The perpendicular projection P from A on the diameter MN represents the simple harmonic motion of P. The restoration force per unit mass when P touches M will be

    [25 Feb 2021 Shift 2]
    The point A moves with a uniform speed along the circumference of a circle of radius 0.36m and covers 30 in 0.1s. The perpendicular projection P from A on the diameter MN represents the simple harmonic motion of P. The restoration force per unit mass when P touches M will be

    [25 Feb 2021 Shift 2]
  • Question 64/170
    4 / -1
    Mark Review
    In the given figure, a mass M is attached to a horizontal spring which is fixed on one side to a rigid support. The spring constant of the spring is k. The mass oscillates on a frictionless surface with time period T and amplitude A. When the mass is in equilibrium position, as shown in the figure, another mass m is gently fixed upon it. The new amplitude of oscillation will be :

    [24feb2021shift1]
    In the given figure, a mass M is attached to a horizontal spring which is fixed on one side to a rigid support. The spring constant of the spring is k. The mass oscillates on a frictionless surface with time period T and amplitude A. When the mass is in equilibrium position, as shown in the figure, another mass m is gently fixed upon it. The new amplitude of oscillation will be :

    [24feb2021shift1]
  • Question 65/170
    4 / -1
    Mark Review
    Two particles A and B of equal masses are suspended from two massless springs of spring constants k1 and k2, respectively. If the maximum velocities during oscillations are equal, the ratio of the amplitude of A and B is
    [17 Mar 2021 Shift 2]
    Two particles A and B of equal masses are suspended from two massless springs of spring constants k1 and k2, respectively. If the maximum velocities during oscillations are equal, the ratio of the amplitude of A and B is
    [17 Mar 2021 Shift 2]
  • Question 66/170
    4 / -1
    Mark Review
    Consider two identical springs each of spring constant k and negligible mass compared to the mass M as shown. Fig.1 shows one of them and Fig.2 shows their series combination. The ratios of time period of oscillation of the two SHM is
    Tb
    Ta
    =x    , where value of x is .........
    (Round off to the nearest integer)

    [17 Mar 2021 Shift 1]
    Consider two identical springs each of spring constant k and negligible mass compared to the mass M as shown. Fig.1 shows one of them and Fig.2 shows their series combination. The ratios of time period of oscillation of the two SHM is
    Tb
    Ta
    =x    , where value of x is .........
    (Round off to the nearest integer)

    [17 Mar 2021 Shift 1]
  • Question 67/170
    4 / -1
    Mark Review
    Time period of a simple pendulum is T inside a lift, when the lift is stationary. If the lift moves upwards with an acceleration g/2, then the time period of pendulum will be
    [16 Mar 2021 Shift 1]
    Time period of a simple pendulum is T inside a lift, when the lift is stationary. If the lift moves upwards with an acceleration g/2, then the time period of pendulum will be
    [16 Mar 2021 Shift 1]
  • Question 68/170
    4 / -1
    Mark Review
    A block of mass 1kg attached to a spring is made to oscillate with an initial amplitude of 12cm. After 2min, the amplitude decreases to 6cm. Determine the value of the damping constant for this motion.
    (Take, In 2=0.693 )
    [17 Mar 2021 Shift 2]
    A block of mass 1kg attached to a spring is made to oscillate with an initial amplitude of 12cm. After 2min, the amplitude decreases to 6cm. Determine the value of the damping constant for this motion.
    (Take, In 2=0.693 )
    [17 Mar 2021 Shift 2]
  • Question 69/170
    4 / -1
    Mark Review
    The function of time representing a simple harmonic motion with a period of
    π
    ω
     is
    [18 Mar 2021 Shift 2]
    The function of time representing a simple harmonic motion with a period of
    π
    ω
     is
    [18 Mar 2021 Shift 2]
  • Question 70/170
    4 / -1
    Mark Review
    A particle performs simple harmonic motion with a period of 2s. The time taken by the particle to cover a displacement equal to half of its amplitude from the mean position is
    1
    a
    s    . The value of a to the nearest integer is
    [18 Mar 2021 Shift 1]
    A particle performs simple harmonic motion with a period of 2s. The time taken by the particle to cover a displacement equal to half of its amplitude from the mean position is
    1
    a
    s    . The value of a to the nearest integer is
    [18 Mar 2021 Shift 1]
  • Question 71/170
    4 / -1
    Mark Review
    For what value of displacement the kinetic energy and potential energy of a simple harmonic oscillation become equal?
    [17 Mar 2021 Shift 1]
    For what value of displacement the kinetic energy and potential energy of a simple harmonic oscillation become equal?
    [17 Mar 2021 Shift 1]
  • Question 72/170
    4 / -1
    Mark Review
    In the reported figure, two bodies A and B of masses 200 g and 800 g are attached with the system of springs. Springs are kept in a stretched position with some extension when the system is released. The horizontal surface is assumed to be frictionless. The angular frequency will be _______ rad/s when k = 20 N/m.

    [25 Jul 2021 Shift 1]
    In the reported figure, two bodies A and B of masses 200 g and 800 g are attached with the system of springs. Springs are kept in a stretched position with some extension when the system is released. The horizontal surface is assumed to be frictionless. The angular frequency will be _______ rad/s when k = 20 N/m.

    [25 Jul 2021 Shift 1]
  • Question 73/170
    4 / -1
    Mark Review
    T0 is the time period of a simple pendulum at a place. If the length of the pendulum is reduced to
    1
    16
     times of its initial value, the modified timeperiod is :
    [22 Jul 2021 Shift 2]
    T0 is the time period of a simple pendulum at a place. If the length of the pendulum is reduced to
    1
    16
     times of its initial value, the modified timeperiod is :
    [22 Jul 2021 Shift 2]
  • Question 74/170
    4 / -1
    Mark Review
    The motion of a mass on a spring, with spring constant K is as shown in figure.
    The equation of motion is given by x(t)= Asin\ω t+ Bcos\ωtwith ω=
    K
    m
    Suppose that at time t=0, the position of mass is x(0) and velocity v(0), then its displacement can also be represented as x(t)=Ccos(ωtϕ), where Cand ϕ are :
    [22 Jul 2021 Shift 2]
    The motion of a mass on a spring, with spring constant K is as shown in figure.

    The equation of motion is given by x(t)= Asin\ω t+ Bcos\ωtwith ω=
    K
    m
    Suppose that at time t=0, the position of mass is x(0) and velocity v(0), then its displacement can also be represented as x(t)=Ccos(ωtϕ), where Cand ϕ are :
    [22 Jul 2021 Shift 2]
  • Question 75/170
    4 / -1
    Mark Review
    A particle executes simple harmonic motion represented by displacement function as
    x(t)=Asin(ωt+ϕ)
    If the position and velocity of the particle at t=0s are 2cm and 2ωcms1 respectively, then its amplitude is x2cm where the value of x is ____.
    [27 Jul 2021 Shift 2]
    A particle executes simple harmonic motion represented by displacement function as
    x(t)=Asin(ωt+ϕ)
    If the position and velocity of the particle at t=0s are 2cm and 2ωcms1 respectively, then its amplitude is x2cm where the value of x is ____.
    [27 Jul 2021 Shift 2]
  • Question 76/170
    4 / -1
    Mark Review
    A particle starts executing simple harmonic motion (SHM) of amplitude 'a' and total energy E. At any instant, its kinetic energy is
    3E
    4
     then its displacement 'y' is given by:
    [27 Jul 2021 Shift 1]
    A particle starts executing simple harmonic motion (SHM) of amplitude 'a' and total energy E. At any instant, its kinetic energy is
    3E
    4
     then its displacement 'y' is given by:
    [27 Jul 2021 Shift 1]
  • Question 77/170
    4 / -1
    Mark Review
    In a simple harmonic oscillation, what fraction of total mechanical energy is in the form of kinetic energy, when the particle is midway between mean and extreme position.
    [25 Jul 2021 Shift 2]
    In a simple harmonic oscillation, what fraction of total mechanical energy is in the form of kinetic energy, when the particle is midway between mean and extreme position.
    [25 Jul 2021 Shift 2]
  • Question 78/170
    4 / -1
    Mark Review
    A particle is making simple harmonic motion along the X-axis. If at a distances x1 and x2 from the mean position the velocities of the particle are v1 and v2 respectively. The time period of its oscillation is given as:
    [20 Jul 2021 Shift 2]
    A particle is making simple harmonic motion along the X-axis. If at a distances x1 and x2 from the mean position the velocities of the particle are v1 and v2 respectively. The time period of its oscillation is given as:
    [20 Jul 2021 Shift 2]
  • Question 79/170
    4 / -1
    Mark Review
    A particle of mass 1kg is hanging from a spring of force constant 100Nm1. The mass is pulled slightly downward and released, so that it executes free simple harmonic motion with time period T. The time when the kinetic energy and potential energy of the system will become equal, is
    T
    x
    . The value of x is.
    [31 Aug 2021 Shift 1]
    A particle of mass 1kg is hanging from a spring of force constant 100Nm1. The mass is pulled slightly downward and released, so that it executes free simple harmonic motion with time period T. The time when the kinetic energy and potential energy of the system will become equal, is
    T
    x
    . The value of x is.
    [31 Aug 2021 Shift 1]
  • Question 80/170
    4 / -1
    Mark Review
    A bob of mass m suspended by a thread of length l undergoes simple harmonic oscillations with time period T. If the bob is immersed in a liquid that has density
    1
    4
     times that of the bob and the length of the thread is increased by
    1
    3
    rd     of the original length, then the time period of the simple harmonic oscillations will be
    [31 Aug 2021 Shift 2]
    A bob of mass m suspended by a thread of length l undergoes simple harmonic oscillations with time period T. If the bob is immersed in a liquid that has density
    1
    4
     times that of the bob and the length of the thread is increased by
    1
    3
    rd     of the original length, then the time period of the simple harmonic oscillations will be
    [31 Aug 2021 Shift 2]
  • Question 81/170
    4 / -1
    Mark Review
    The acceleration due to gravity is found upto an accuracy of 4% on a planet. The energy supplied to a simple pendulum to known mass m to undertake oscillations of time period T is being estimated. If time period is measured to an accuracy of 3%, the accuracy to which E is known as ..........%.
    [26 Aug 2021 Shift 2]
    The acceleration due to gravity is found upto an accuracy of 4% on a planet. The energy supplied to a simple pendulum to known mass m to undertake oscillations of time period T is being estimated. If time period is measured to an accuracy of 3%, the accuracy to which E is known as ..........%.
    [26 Aug 2021 Shift 2]
  • Question 82/170
    4 / -1
    Mark Review
    For a body executing SHM
    A. potential energy is always equal to its kinetic energy.
    B. average potential and kinetic energy over any given time interval are always equal.
    C. sum of the kinetic and potential energy at any point of time is constant.
    D. average kinetic energy in one time period is equal to average potential energy in one time period.
    Choose the most appropriate option from the options given below.
    [31 Aug 2021 Shift 2]
    For a body executing SHM
    A. potential energy is always equal to its kinetic energy.
    B. average potential and kinetic energy over any given time interval are always equal.
    C. sum of the kinetic and potential energy at any point of time is constant.
    D. average kinetic energy in one time period is equal to average potential energy in one time period.
    Choose the most appropriate option from the options given below.
    [31 Aug 2021 Shift 2]
  • Question 83/170
    4 / -1
    Mark Review
    Two simple harmonic motion, are represented by the equations y1=10 sin(3πt+
    π
    3
    )     and y2=5(sin3πt+3cos3πt) Ratio of amplitude of y1 to y2=x:1. The value of x is ............ .
    [27 Aug 2021 Shift 2]
    Two simple harmonic motion, are represented by the equations y1=10 sin(3πt+
    π
    3
    )     and y2=5(sin3πt+3cos3πt) Ratio of amplitude of y1 to y2=x:1. The value of x is ............ .
    [27 Aug 2021 Shift 2]
  • Question 84/170
    4 / -1
    Mark Review
    The variation of displacement with time of a particle executing free simple harmonic motion is shown in the figure.
    The potential energy U(x) versus time (t) plot of the particle is correctly shown in figure :
    [27 Aug 2021 Shift 1]
    The variation of displacement with time of a particle executing free simple harmonic motion is shown in the figure.

    The potential energy U(x) versus time (t) plot of the particle is correctly shown in figure :
    [27 Aug 2021 Shift 1]
  • Question 85/170
    4 / -1
    Mark Review
    Two simple harmonic motions are represented by the equations
    x1=5sin(2πt+
    π
    4
    )     and
    x2=52(sin2πt+cos2πt)
    The amplitude of second motion is ..............times the amplitude in first motion.
    [26 Aug 2021 Shift 2]
    Two simple harmonic motions are represented by the equations
    x1=5sin(2πt+
    π
    4
    )     and
    x2=52(sin2πt+cos2πt)
    The amplitude of second motion is ..............times the amplitude in first motion.
    [26 Aug 2021 Shift 2]
  • Question 86/170
    4 / -1
    Mark Review
    A mass of 5kg is connected to a spring. The potential energy curve of the simple harmonic motion executed by the system is shown in the figure. A simple pendulum of length 4m has the same period of oscillation as the spring system. What is the value of acceleration due to gravity on the planet where these experiments are performed?
    [1 Sep 2021 Shift 2]
    A mass of 5kg is connected to a spring. The potential energy curve of the simple harmonic motion executed by the system is shown in the figure.  A simple pendulum of length 4m has the same period of oscillation as the spring system. What is the value of acceleration due to gravity on the planet where these experiments are performed?
    [1 Sep 2021 Shift 2]
  • Question 87/170
    4 / -1
    Mark Review
    The displacement time graph of a particle executing S.H.M. is given in figure : (sketch is schematic and not to scale)
    Which of the following statements is/are true for this motion?
    (1) The force is zero at t=
    3T
    4
    (2) The acceleration is maximum at t=T
    (3) The speed is maximum at t=
    T
    4
    (4) The P.E. is equal to K.E. of the oscillation at t=
    T
    2
    [Sep. 02, 2020 (II)]
    The displacement time graph of a particle executing S.H.M. is given in figure : (sketch is schematic and not to scale)

    Which of the following statements is/are true for this motion?
    (1) The force is zero at t=
    3T
    4
    (2) The acceleration is maximum at t=T
    (3) The speed is maximum at t=
    T
    4
    (4) The P.E. is equal to K.E. of the oscillation at t=
    T
    2
    [Sep. 02, 2020 (II)]
  • Question 88/170
    4 / -1
    Mark Review
    An object of mass m is suspended at the end of a massless wire of length L and area of cross-section, A. Young modulus of the material of the wire is Y. If the mass is pulled down slightly its frequency of oscillation along the vertical direction is:
    [Sep. 06, 2020 (I)]
    An object of mass m is suspended at the end of a massless wire of length L and area of cross-section, A. Young modulus of the material of the wire is Y. If the mass is pulled down slightly its frequency of oscillation along the vertical direction is:
    [Sep. 06, 2020 (I)]
  • Question 89/170
    4 / -1
    Mark Review
    When a particle of mass m is attached to a vertical spring of spring constant k and released, its motion is described by y(t)=y0sin2ωt, where y is measured from the lower end of unstretched spring. Then ω is:
    [Sep. 06, 2020 (II)]
    When a particle of mass m is attached to a vertical spring of spring constant k and released, its motion is described by y(t)=y0sin2ωt, where y is measured from the lower end of unstretched spring. Then ω is:
    [Sep. 06, 2020 (II)]
  • Question 90/170
    4 / -1
    Mark Review
    A block of mass m attached to a massless spring is performing oscillatory motion of amplitude 'A' on a frictionless horizontal plane. If half of the mass of the block breaks off when it is passing through its equilibrium point, the amplitude of oscillation for the remaining system become fA. The value of f is :
    [Sep. 03, 2020 (II)]
    A block of mass m attached to a massless spring is performing oscillatory motion of amplitude 'A' on a frictionless horizontal plane. If half of the mass of the block breaks off when it is passing through its equilibrium point, the amplitude of oscillation for the remaining system become fA. The value of f is :
    [Sep. 03, 2020 (II)]
  • Question 91/170
    4 / -1
    Mark Review
    The position co-ordinates of a particle moving in a 3D coordinate system is given by
    x=acosωt
    y=asinωt
    and z=aωt
    The speed of the particle is:
    [9 Jan 2019, II]
    The position co-ordinates of a particle moving in a 3D coordinate system is given by
    x=acosωt
    y=asinωt
    and z=aωt
    The speed of the particle is:
    [9 Jan 2019, II]
  • Question 92/170
    4 / -1
    Mark Review
    A particle undergoing simple harmonic motion has time dependent displacement given by x(t)=Asin
    πt
    90
    . The ratio of kinetic to potential energy of this particle at t=210s will be
    [11 Jan 2019, I]
    A particle undergoing simple harmonic motion has time dependent displacement given by x(t)=Asin
    πt
    90
    . The ratio of kinetic to potential energy of this particle at t=210s will be
    [11 Jan 2019, I]
  • Question 93/170
    4 / -1
    Mark Review
    A pendulum is executing simple harmonic motion and its maximum kinetic energy is K1. If the length of the pendulum is doubled and it performs simple harmonic motion with the same amplitude as in the first case, its maximum kinetic energy is K2.
    [11 Jan 2019, II]
    A pendulum is executing simple harmonic motion and its maximum kinetic energy is K1. If the length of the pendulum is doubled and it performs simple harmonic motion with the same amplitude as in the first case, its maximum kinetic energy is K2.
    [11 Jan 2019, II]
  • Question 94/170
    4 / -1
    Mark Review
    A particle is executing simple harmonic motion (SHM) of amplitude A, along the x -axis, about x=0. When its potential Energy (PE) equals kinetic energy (KE), the position of the particle will be:
    [9 Jan 2019, II]
    A particle is executing simple harmonic motion (SHM) of amplitude A, along the x -axis, about x=0. When its potential Energy (PE) equals kinetic energy (KE), the position of the particle will be:
    [9 Jan 2019, II]
  • Question 95/170
    4 / -1
    Mark Review
    Two light identical springs of spring constant k are attached horizontally at the two ends of a uniform horizontal rod AB of length l and mass m. The rod is pivoted at its centre ' O ' and can rotate frreely in horizontal plane. The other ends of two springs are fixed to rigid supports as shown in figure. The rod is gently pushed through a small angle and released. The frequency of resulting oscillation is:

    [12 Jan 2019, I]
    Two light identical springs of spring constant k are attached horizontally at the two ends of a uniform horizontal rod AB of length l and mass m. The rod is pivoted at its centre ' O ' and can rotate frreely in horizontal plane. The other ends of two springs are fixed to rigid supports as shown in figure. The rod is gently pushed through a small angle and released. The frequency of resulting oscillation is:

    [12 Jan 2019, I]
  • Question 96/170
    4 / -1
    Mark Review
    A simple pendulum, made of a string of length l and a bob of mass m, is released from a small angle θ0. It strikes a block of mass M, kept on a horizontal surface at its lowest point of oscillations, elastically. It bounces back and goes up to an angle θ1. The M is given by:
    [12 Jan 2019, I]
    A simple pendulum, made of a string of length l and a bob of mass m, is released from a small angle θ0. It strikes a block of mass M, kept on a horizontal surface at its lowest point of oscillations, elastically. It bounces back and goes up to an angle θ1. The M is given by:
    [12 Jan 2019, I]
  • Question 97/170
    4 / -1
    Mark Review
    A simple harmonic motion is represented by
    y=5(sin3πt+3cos3πt)cm
    The amplitude and time period of the motion are :
    [12 Jan 2019, II]
    A simple harmonic motion is represented by
    y=5(sin3πt+3cos3πt)cm
    The amplitude and time period of the motion are :
    [12 Jan 2019, II]
  • Question 98/170
    4 / -1
    Mark Review
    A simple pendulum of length 1m is oscillating with an angular frequency 10rads. The support of the pendulum starts oscillating up and down with a small angular frequency of 1rads and an amplitude of 102m. The relative change in the angular frequency of the pendulum is best given by:
    [11 Jan 2019, II]
    A simple pendulum of length 1m is oscillating with an angular frequency 10rads. The support of the pendulum starts oscillating up and down with a small angular frequency of 1rads and an amplitude of 102m. The relative change in the angular frequency of the pendulum is best given by:
    [11 Jan 2019, II]
  • Question 99/170
    4 / -1
    Mark Review
    The mass and the diameter of a planet are three times the respective values for the Earth. The period of oscillation of a simple pendulum on the Earth is 2s. The period of oscillation of the same pendulum on the planet would be:
    [11 Jan 2019, II]
    The mass and the diameter of a planet are three times the respective values for the Earth. The period of oscillation of a simple pendulum on the Earth is 2s. The period of oscillation of the same pendulum on the planet would be:
    [11 Jan 2019, II]
  • Question 100/170
    4 / -1
    Mark Review
    A particle executes simple harmonic motion with an amplitude of 5cm. When the particle is at 4cm from the mean position, the magnitude of its velocity in SI units is equal to that of its acceleration. Then, its periodic time in seconds is:
    [10 Jan 2019, II]
    A particle executes simple harmonic motion with an amplitude of 5cm. When the particle is at 4cm from the mean position, the magnitude of its velocity in SI units is equal to that of its acceleration. Then, its periodic time in seconds is:
    [10 Jan 2019, II]
  • Question 101/170
    4 / -1
    Mark Review
    A cylindrical plastic bottle of negligible mass is filled with 310ml of water and left floating in a pond with still water. If pressed downward slightly and released, it starts performing simple harmonic motion at angular frequency ω. If the radius of the bottle is 2.5cm then omega is close to: (density of water =103kgm3 )
    [10 Jan 2019, II]
    A cylindrical plastic bottle of negligible mass is filled with 310ml of water and left floating in a pond with still water. If pressed downward slightly and released, it starts performing simple harmonic motion at angular frequency ω. If the radius of the bottle is 2.5cm then omega is close to: (density of water =103kgm3 )
    [10 Jan 2019, II]
  • Question 102/170
    4 / -1
    Mark Review
    A rod of mass 'M' and length '2L' is suspended at its middle by a wire. It exhibits torsional oscillations; If two masses each of 'm' are attached at distance 'L/2' from its centre on both sides, it reduces the oscillation frequency by 20%. The value of ratio mM is close to :
    [9 Jan 2019, II]
    A rod of mass 'M' and length '2L' is suspended at its middle by a wire. It exhibits torsional oscillations; If two masses each of 'm' are attached at distance 'L/2' from its centre on both sides, it reduces the oscillation frequency by 20%. The value of ratio mM is close to :
    [9 Jan 2019, II]
  • Question 103/170
    4 / -1
    Mark Review
    The displacement of a damped harmonic oscillator is given by x(t)=e0.1t.cos(10πt+φ). Here tis in seconds.
    The time taken for its amplitude of vibration to drop to half of its initial value is close to :
    [9 Jan 2019, II]
    The displacement of a damped harmonic oscillator is given by x(t)=e0.1t.cos(10πt+φ). Here tis in seconds.
    The time taken for its amplitude of vibration to drop to half of its initial value is close to :
    [9 Jan 2019, II]
  • Question 104/170
    4 / -1
    Mark Review
    A person of mass M is, sitting on a swing of length L and swinging with an angular amplitude θ0. If the person stands up when the swing passes through its lowest point, the work done by him, assuming that his centre of mass moves by a distance l(l<<L), is close to :
    [12 April 2019, II]
    A person of mass M is, sitting on a swing of length L and swinging with an angular amplitude θ0. If the person stands up when the swing passes through its lowest point, the work done by him, assuming that his centre of mass moves by a distance l(l<<L), is close to :
    [12 April 2019, II]
  • Question 105/170
    4 / -1
    Mark Review
    A simple pendulum oscillating in air has period T. The bob of the pendulum is completely immersed in a non-viscous liquid. The density of the liquid is
    1
    16
     th of the material of the bob. If the bob is inside liquid all the time, its period of oscillation in this liquid is :
    [9 April 2019 I]
    A simple pendulum oscillating in air has period T. The bob of the pendulum is completely immersed in a non-viscous liquid. The density of the liquid is
    1
    16
     th of the material of the bob. If the bob is inside liquid all the time, its period of oscillation in this liquid is :
    [9 April 2019 I]
  • Question 106/170
    4 / -1
    Mark Review
    A damped harmonic oscillator has a frequency of 5 oscillations per second. The amplitude drops to half its value for every 10 oscillations. The time it will take to drop to
    1
    1000
     of the original amplitude is close to:
    [8 April 2019, II]
    A damped harmonic oscillator has a frequency of 5 oscillations per second. The amplitude drops to half its value for every 10 oscillations. The time it will take to drop to
    1
    1000
     of the original amplitude is close to:
    [8 April 2019, II]
  • Question 107/170
    4 / -1
    Mark Review
    Two simple harmonic motions, as shown, are at right angles.
    They are combined to form Lissajous figures.
    x(t)=Asin(at+δ)
    y(t)=Bsin(bt)
    Identify the correct match below
    [Online April 15, 2018]
    Two simple harmonic motions, as shown, are at right angles.
    They are combined to form Lissajous figures.
    x(t)=Asin(at+δ)
    y(t)=Bsin(bt)
    Identify the correct match below
    [Online April 15, 2018]
  • Question 108/170
    4 / -1
    Mark Review
    A silver atom in a solid oscillates in simple harmonic motion in some direction with a frequency of 1012sec. What is the force constant of the bonds connecting one atom with the other? (Mole wt. of silver =108 and Avagadro number =6.02×1023gmmole1)
    [2018]
    A silver atom in a solid oscillates in simple harmonic motion in some direction with a frequency of 1012sec. What is the force constant of the bonds connecting one atom with the other? (Mole wt. of silver =108 and Avagadro number =6.02×1023gmmole1)
    [2018]
  • Question 109/170
    4 / -1
    Mark Review
    A particle executes simple harmonic motion and is located at x=a,b and c at ×t0,2t0 and 3t0 respectively. The frequency of the oscillation is
    [Online April 16, 2018]
    A particle executes simple harmonic motion and is located at x=a,b and c at ×t0,2t0 and 3t0 respectively. The frequency of the oscillation is
    [Online April 16, 2018]
  • Question 110/170
    4 / -1
    Mark Review
    An oscillator of mass M is at rest in its equilibrium position in a potential V=
    1
    2
    k    (xX)2    . A particle of mass m comes from right with speed u and collides completely inelastically with M and sticks to it. This process repeats every time the oscillator crosses its equilibrium position. The amplitude of oscillations after 13 collisions is:
    (M=10,m=5,u=1,k=1),
    [Online April 16, 2018]
    An oscillator of mass M is at rest in its equilibrium position in a potential V=
    1
    2
    k    (xX)2    . A particle of mass m comes from right with speed u and collides completely inelastically with M and sticks to it. This process repeats every time the oscillator crosses its equilibrium position. The amplitude of oscillations after 13 collisions is:
    (M=10,m=5,u=1,k=1),
    [Online April 16, 2018]
  • Question 111/170
    4 / -1
    Mark Review
    The ratio of maximum acceleration to maximum velocity in a simple harmonic motion is 10s1. At, t=0 the displacement is 5m. What is the maximum acceleration ? The initial phase is
    π
    4
    [Online April 8,2017]
    The ratio of maximum acceleration to maximum velocity in a simple harmonic motion is 10s1. At, t=0 the displacement is 5m. What is the maximum acceleration ? The initial phase is
    π
    4
    [Online April 8,2017]
  • Question 112/170
    4 / -1
    Mark Review
    A particle is executing simple harmonic motion with a time period T. At time t=0, it is at its position of equilibrium. The kinetic energy-time graph of the particle will look like:
    [2017]
    A particle is executing simple harmonic motion with a time period T. At time t=0, it is at its position of equilibrium. The kinetic energy-time graph of the particle will look like:
    [2017]
  • Question 113/170
    4 / -1
    Mark Review
    A block of mass 0.1kg is connected to an elastic spring of spring constant 640Nm1 and oscillates in a medium of constant 102kgs1. The system dissipates its energy gradually. The time taken for its mechanical energy of vibration to drop to half of its initial value, is closest to :
    [Online April 9,2017]
    A block of mass 0.1kg is connected to an elastic spring of spring constant 640Nm1 and oscillates in a medium of constant 102kgs1. The system dissipates its energy gradually. The time taken for its mechanical energy of vibration to drop to half of its initial value, is closest to :
    [Online April 9,2017]
  • Question 114/170
    4 / -1
    Mark Review
    In an experiment to determine the period of a simple pendulum of length 1m, it is attached to different spherical bobs of radii r1 and r2. The two spherical bobs have uni- form mass distribution. If the relative difference in the periods, is found to be 5×104s, the difference in radii, |r1r2| is best given by:
    [Online April 9,2017]
    In an experiment to determine the period of a simple pendulum of length 1m, it is attached to different spherical bobs of radii r1 and r2. The two spherical bobs have uni- form mass distribution. If the relative difference in the periods, is found to be 5×104s, the difference in radii, |r1r2| is best given by:
    [Online April 9,2017]
  • Question 115/170
    4 / -1
    Mark Review
    A 1kg block attached to a spring vibrates with a frequency of 1Hz on a frictionless horizontal table. Two springs identical to the original spring are attached in parallel to an 8kg block placed on the same table. So, the frequency of vibration of the 8kg block is :
    [Online April 8, 2017]
    A 1kg block attached to a spring vibrates with a frequency of 1Hz on a frictionless horizontal table. Two springs identical to the original spring are attached in parallel to an 8kg block placed on the same table. So, the frequency of vibration of the 8kg block is :
    [Online April 8, 2017]
  • Question 116/170
    4 / -1
    Mark Review
    A particle performs simple harmonic mition with amplitude A. Its speed is trebled at the instant that it is at a distance
    2A
    3
     from equilibrium position. The new amplitude of the motion is:
    [2016]
    A particle performs simple harmonic mition with amplitude A. Its speed is trebled at the instant that it is at a distance
    2A
    3
     from equilibrium position. The new amplitude of the motion is:
    [2016]
  • Question 117/170
    4 / -1
    Mark Review
    Two particles are performing simple harmonic motion in a straight line about the same equilibrium point. The amplitude and time period for both particles are same and equal to A and T, respectively. At time t=0 one particle has displacement A while the other one has displacement
    A
    2
     and they are moving towards each other. If they cross each other at time t, then t is:
    [Online April 9, 2016]
    Two particles are performing simple harmonic motion in a straight line about the same equilibrium point. The amplitude and time period for both particles are same and equal to A and T, respectively. At time t=0 one particle has displacement A while the other one has displacement
    A
    2
     and they are moving towards each other. If they cross each other at time t, then t is:
    [Online April 9, 2016]
  • Question 118/170
    4 / -1
    Mark Review
    A pendulum clock loses 12s a day if the temperature is 40°C and gains 4s a day if the temperature is 20°C. The temperature at which the clock will show correct time, and the co-efficient of linear expansion (α) of the metal of the pendulum shaft are respectively:
    [2016]
    A pendulum clock loses 12s a day if the temperature is 40°C and gains 4s a day if the temperature is 20°C. The temperature at which the clock will show correct time, and the co-efficient of linear expansion (α) of the metal of the pendulum shaft are respectively:
    [2016]
  • Question 119/170
    4 / -1
    Mark Review
    In an engine the piston undergoes vertical simple harmonic motion with amplitude 7cm. A washer rests on top of the piston and moves with it. The motor speed is slowly increased. The frequency of the piston at which the washer no longer stays in contact with the piston, is close to :
    [Online April 10,2016]
    In an engine the piston undergoes vertical simple harmonic motion with amplitude 7cm. A washer rests on top of the piston and moves with it. The motor speed is slowly increased. The frequency of the piston at which the washer no longer stays in contact with the piston, is close to :
    [Online April 10,2016]
  • Question 120/170
    4 / -1
    Mark Review
    A simple harmonic oscillator of angular frequency 2rad s1 is acted upon by an external force F=sintN. If the oscillator is at rest in its equilibrium position at t=0, its position at later times is proportional to:
    [Online April 10, 2015]
    A simple harmonic oscillator of angular frequency 2rad s1 is acted upon by an external force F=sintN. If the oscillator is at rest in its equilibrium position at t=0, its position at later times is proportional to:
    [Online April 10, 2015]
  • Question 121/170
    4 / -1
    Mark Review
    x and y displacements of a particle are given as x(t)=asin ω t and y(t)=asin2ωt. Its trajectory will look like:
    [Online April 10, 2015]
    x and y displacements of a particle are given as x(t)=asin ω t and y(t)=asin2ωt. Its trajectory will look like:
    [Online April 10, 2015]
  • Question 122/170
    4 / -1
    Mark Review
    For a simple pendulum, a graph is plotted between its kinetic energy (KE) and potential energy (PE) against its displacement d. Which one of the following represents these correctly? (graphs are schematic and not drawn to scale)
    [2015]
    For a simple pendulum, a graph is plotted between its kinetic energy (KE) and potential energy (PE) against its displacement d. Which one of the following represents these correctly? (graphs are schematic and not drawn to scale)
    [2015]
  • Question 123/170
    4 / -1
    Mark Review
    A pendulum with time period of 1s is losing energy. At certain time its energy is 45J. If after completing 15 oscillations, its energy has become 15J, its damping constant (in s1 ) is :
    [Online April 11, 2015]
    A pendulum with time period of 1s is losing energy. At certain time its energy is 45J. If after completing 15 oscillations, its energy has become 15J, its damping constant (in s1 ) is :
    [Online April 11, 2015]
  • Question 124/170
    4 / -1
    Mark Review
    A pendulum made of a uniform wire of cross sectional area A has time period T. When an additional mass M is added to its bob, the time period changes to TM. If the Young's modulus of the material of the wire is Y then
    1
    Y
     is equal to:
    (g= gravitational acceleration )
    [2015]
    A pendulum made of a uniform wire of cross sectional area A has time period T. When an additional mass M is added to its bob, the time period changes to TM. If the Young's modulus of the material of the wire is Y then
    1
    Y
     is equal to:
    (g= gravitational acceleration )
    [2015]
  • Question 125/170
    4 / -1
    Mark Review
    A body is in simple harmonic motion with time period half second (T=0.5s) and amplitude one cm(A=1cm). Find the average velocity in the interval in which it moves form equilibrium position to half of its amplitude.
    [Online April 19,2014]
    A body is in simple harmonic motion with time period half second (T=0.5s) and amplitude one cm(A=1cm). Find the average velocity in the interval in which it moves form equilibrium position to half of its amplitude.
    [Online April 19,2014]
  • Question 126/170
    4 / -1
    Mark Review
    Which of the following expressions corresponds to simple harmonic motion along a straight line, where x is the displacement and a,b,c are positive constants?
    [Online April 12,2014]
    Which of the following expressions corresponds to simple harmonic motion along a straight line, where x is the displacement and a,b,c are positive constants?
    [Online April 12,2014]
  • Question 127/170
    4 / -1
    Mark Review
    A particle which is simultaneously subjected to two perpendicular simple harmonic motions represented by; x=a1cosωt and y=a2cos2ωt traces a curve given by:
    [Online April 9, 2014]
    A particle which is simultaneously subjected to two perpendicular simple harmonic motions represented by; x=a1cosωt and y=a2cos2ωt traces a curve given by:
    [Online April 9, 2014]
  • Question 128/170
    4 / -1
    Mark Review
    A particle moves with simple harmonic motion in a straight line. In first τs, after starting from rest it travels a distance a, and in next τ s it travels 2a, in same direction, then:
    [2014]
    A particle moves with simple harmonic motion in a straight line. In first τs, after starting from rest it travels a distance a, and in next τ s it travels 2a, in same direction, then:
    [2014]
  • Question 129/170
    4 / -1
    Mark Review
    In an experiment for determining the gravitational acceleration g of a place with the help of a simple pendulum, the measured time period square is plotted against the string length of the pendulum in the figure.

    What is the value of g at the place?
    [Online April 19, 2014]
    In an experiment for determining the gravitational acceleration g of a place with the help of a simple pendulum, the measured time period square is plotted against the string length of the pendulum in the figure.

    What is the value of g at the place?
    [Online April 19, 2014]
  • Question 130/170
    4 / -1
    Mark Review
    The amplitude of a simple pendulum, oscillating in air with a small spherical bub, decreases from 10cm108cm in 40 seconds. Assuming that Stokes law is valid, and ratio of the coefficient of viscosity of air to that of carbon dioxide is 1.3 . The time in which amplitude of this pendulum will reduce from 10cm to 5cm in carbon dioxide will be close to (In5=1.601,In2=0.693).
    [Online April 9, 2014]
    The amplitude of a simple pendulum, oscillating in air with a small spherical bub, decreases from 10cm108cm in 40 seconds. Assuming that Stokes law is valid, and ratio of the coefficient of viscosity of air to that of carbon dioxide is 1.3 . The time in which amplitude of this pendulum will reduce from 10cm to 5cm in carbon dioxide will be close to (In5=1.601,In2=0.693).
    [Online April 9, 2014]
  • Question 131/170
    4 / -1
    Mark Review
    Two bodies of masses 1kg and 4kg are connected to a vertical spring, as shown in the figure. The smaller mass executes simple harmonic motion of angular frequency 25rads, and amplitude 1.6cm while the bigger mass remains stationary on the ground. The maximum force exerted by the system on the floor is (take g=10ms2 )

    [Online April 9, 2014]
    Two bodies of masses 1kg and 4kg are connected to a vertical spring, as shown in the figure. The smaller mass executes simple harmonic motion of angular frequency 25rads, and amplitude 1.6cm while the bigger mass remains stationary on the ground. The maximum force exerted by the system on the floor is (take g=10ms2 )

    [Online April 9, 2014]
  • Question 132/170
    4 / -1
    Mark Review
    The angular frequency of the damped oscillator is given by, ω=(
    k
    m
    r2
    4m2
    )     where k is the spring constant, mis the mass of the oscillator and r is the damping constant.
    If the ratio
    r2
    mk
     is 8%, the change in time period compared to the undamped oscillator is approximately as follows:
    [Online April 11, 2014]
    The angular frequency of the damped oscillator is given by, ω=(
    k
    m
    r2
    4m2
    )     where k is the spring constant, mis the mass of the oscillator and r is the damping constant.
    If the ratio
    r2
    mk
     is 8%, the change in time period compared to the undamped oscillator is approximately as follows:
    [Online April 11, 2014]
  • Question 133/170
    4 / -1
    Mark Review
    The amplitude of a damped oscillator decreases to 0.9 times its original magnitude in 5s. In another 10 s it will decrease to α times its original magnitude, where α equals
    [2013]
    The amplitude of a damped oscillator decreases to 0.9 times its original magnitude in 5s. In another 10 s it will decrease to α times its original magnitude, where α equals
    [2013]
  • Question 134/170
    4 / -1
    Mark Review
    An ideal gas enclosed in a vertical cylindrical container supports a freely moving piston of mass M. The piston and the cylinder have equal cross sectional area A. When the piston is in equilibrium, the volume of the gas is V0 and its pressure is P0. The piston is slightly displaced from the equilibrium position and released. Assuming that the system is completely isolated from its surrounding, the piston executes a simple harmonic motion with frequency
    [2013]
    An ideal gas enclosed in a vertical cylindrical container supports a freely moving piston of mass M. The piston and the cylinder have equal cross sectional area A. When the piston is in equilibrium, the volume of the gas is V0 and its pressure is P0. The piston is slightly displaced from the equilibrium position and released. Assuming that the system is completely isolated from its surrounding, the piston executes a simple harmonic motion with frequency
    [2013]
  • Question 135/170
    4 / -1
    Mark Review
    A mass m=1.0kg is put on a flat pan attached to a vertical spring fixed on the ground. The mass of the spring and the pan is negligible. When pressed slightly and released, the mass executes simple harmonic motion. The spring constant is 500Nm. What is the amplitude A of the motion, so that the mass m tends to get detached from the pan?
    (Take g=10ms2 ).
    The spring is stiff enough so that it does not get distorted during the motion.

    [Online April 22, 2013]
    A mass m=1.0kg is put on a flat pan attached to a vertical spring fixed on the ground. The mass of the spring and the pan is negligible. When pressed slightly and released, the mass executes simple harmonic motion. The spring constant is 500Nm. What is the amplitude A of the motion, so that the mass m tends to get detached from the pan?
    (Take g=10ms2 ).
    The spring is stiff enough so that it does not get distorted during the motion.

    [Online April 22, 2013]
  • Question 136/170
    4 / -1
    Mark Review
    Two simple pendulums of length 1m and 4m respectively are both given small displacement in the same direction at the same instant. They will be again in phase after the shorter pendulum has completed number of oscillations equal to :
    [Online April 9,2013]
    Two simple pendulums of length 1m and 4m respectively are both given small displacement in the same direction at the same instant. They will be again in phase after the shorter pendulum has completed number of oscillations equal to :
    [Online April 9,2013]
  • Question 137/170
    4 / -1
    Mark Review
    A uniform cylinder of length L and mass M having cross-sectional area A is suspended, with its length vertical, from a fixed point by a massless spring, such that it is half submerged in a liquid of density sigma at equilibrium position. When the cylinder is given a downward push and released, it starts oscillating vertically with a small amplitude. The time period T of the oscillations of the cylinder will be :
    [Online April 25, 2013]
    A uniform cylinder of length L and mass M having cross-sectional area A is suspended, with its length vertical, from a fixed point by a massless spring, such that it is half submerged in a liquid of density sigma at equilibrium position. When the cylinder is given a downward push and released, it starts oscillating vertically with a small amplitude. The time period T of the oscillations of the cylinder will be :
    [Online April 25, 2013]
  • Question 138/170
    4 / -1
    Mark Review
    Bob of a simple pendulum of length l is made of iron. The pendulum is oscillating over a horizontal coil carrying direct current. If the time period of the pendulum is T then :
    [Online April 23, 2013]
    Bob of a simple pendulum of length l is made of iron. The pendulum is oscillating over a horizontal coil carrying direct current. If the time period of the pendulum is T then :
    [Online April 23, 2013]
  • Question 139/170
    4 / -1
    Mark Review
    The displacement y(t)=Asin(ωt+ϕ) of a pendulum for ϕ=
    2π
    3
     is correctly represented by
    [Online May 19, 2012]
    The displacement y(t)=Asin(ωt+ϕ) of a pendulum for ϕ=
    2π
    3
     is correctly represented by
    [Online May 19, 2012]
  • Question 140/170
    4 / -1
    Mark Review
    This question has Statement 1 and Statement 2. Of the four choices given after the Statements, choose the one that best describes the two Statements.
    If two springs S1 and S2 of force constants k1 and k2 respectively, are stretched by the same force, it is found that more work is done on spring S1 than on spring S2
    Statement 1: If stretched by the same amount work done on S1
    Statement 2: k1<k2
    [2012]
    This question has Statement 1 and Statement 2. Of the four choices given after the Statements, choose the one that best describes the two Statements.
    If two springs S1 and S2 of force constants k1 and k2 respectively, are stretched by the same force, it is found that more work is done on spring S1 than on spring S2
    Statement 1: If stretched by the same amount work done on S1
    Statement 2: k1<k2
    [2012]
  • Question 141/170
    4 / -1
    Mark Review
    If a simple pendulum has significant amplitude (up to a factor of 1e of original) only in the period between t= 0 s to t=τs, then tau may be called the average life of the pendulum. When the spherical bob of the pendulum suffers a retardation (due to viscous drag) proportional to its velocity with b as the constant of proportionality, the average life time of the pendulum in second is (assuming damping is small)
    [2012]
    If a simple pendulum has significant amplitude (up to a factor of 1e of original) only in the period between t= 0 s to t=τs, then tau may be called the average life of the pendulum. When the spherical bob of the pendulum suffers a retardation (due to viscous drag) proportional to its velocity with b as the constant of proportionality, the average life time of the pendulum in second is (assuming damping is small)
    [2012]
  • Question 142/170
    4 / -1
    Mark Review
    A ring is suspended from a point S on its rim as shown in the figure. When displaced from equilibrium, it oscillates with time period of 1 second. The radius of the ring is (take g=π2)

    [Online May 19, 2012]
    A ring is suspended from a point S on its rim as shown in the figure. When displaced from equilibrium, it oscillates with time period of 1 second. The radius of the ring is (take g=π2)

    [Online May 19, 2012]
  • Question 143/170
    4 / -1
    Mark Review
    Two particles are executing simple harmonic motion of the same amplitude A and frequency omega along the x -axis. Their mean position is separated by distance X0(X0>A). If the maximum separation between them is (X0+A), the phase difference between their motion is:
    [2011]
    Two particles are executing simple harmonic motion of the same amplitude A and frequency omega along the x -axis. Their mean position is separated by distance X0(X0>A). If the maximum separation between them is (X0+A), the phase difference between their motion is:
    [2011]
  • Question 144/170
    4 / -1
    Mark Review
    A mass M, attached to a horizontal spring, executes S.H.M. with amplitude A1. When the mass M passes through its mean position then a smaller mass m is placed over it and both of them move together with amplitude A2. The ratio of (
    A1
    A2
    )     is:
    [2011]
    A mass M, attached to a horizontal spring, executes S.H.M. with amplitude A1. When the mass M passes through its mean position then a smaller mass m is placed over it and both of them move together with amplitude A2. The ratio of (
    A1
    A2
    )     is:
    [2011]
  • Question 145/170
    4 / -1
    Mark Review
    A wooden cube (density of wood ' d ') of side ' l ' floats in a liquid of density ' ρ ' with its upper and lower surfaces horizontal. If the cube is pushed slightly down and released, it performs simple harmonic motion of period 'T'
    [2011 RS]
    A wooden cube (density of wood ' d ') of side ' l ' floats in a liquid of density ' ρ ' with its upper and lower surfaces horizontal. If the cube is pushed slightly down and released, it performs simple harmonic motion of period 'T'
    [2011 RS]
  • Question 146/170
    4 / -1
    Mark Review
    If x,v and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?
    [2009]
    If x,v and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?
    [2009]
  • Question 147/170
    4 / -1
    Mark Review
    A point mass oscillates along the x -axis according to the law x=x0cos(ωtπ4). If the acceleration of the particle is written as a=Acos(ωt+δ), then
    [2007]
    A point mass oscillates along the x -axis according to the law x=x0cos(ωtπ4). If the acceleration of the particle is written as a=Acos(ωt+δ), then
    [2007]
  • Question 148/170
    4 / -1
    Mark Review
    A particle of mass m executes simple harmonic motion with amplitude a and frequency v. The average kinetic energy during its motion from the position of equilibrium to the end is
    [2007]
    A particle of mass m executes simple harmonic motion with amplitude a and frequency v. The average kinetic energy during its motion from the position of equilibrium to the end is
    [2007]
  • Question 149/170
    4 / -1
    Mark Review
    Two springs, of force constants k1 and k2 are connected to a mass m as shown. The frequency of oscillation of the mass is f. If both k1 and k2 are made four times their original values, the frequency of oscillation becomes

    [2007]
    Two springs, of force constants k1 and k2 are connected to a mass m as shown. The frequency of oscillation of the mass is f. If both k1 and k2 are made four times their original values, the frequency of oscillation becomes

    [2007]
  • Question 150/170
    4 / -1
    Mark Review
    The displacement of an object attached to a spring and executing simple harmonic motion is given by x=2×102 cosπt metre. The time at which the maximum speed first occurs is
    [2007]
    The displacement of an object attached to a spring and executing simple harmonic motion is given by x=2×102 cosπt metre. The time at which the maximum speed first occurs is
    [2007]
  • Question 151/170
    4 / -1
    Mark Review
    A coin is placed on a horizontal platform which undergoes vertical simple harmonic motion of angular frequency ω. The amplitude of oscillation is gradually increased. The coin will leave contact with the platform for the first time
    [2006]
    A coin is placed on a horizontal platform which undergoes vertical simple harmonic motion of angular frequency ω. The amplitude of oscillation is gradually increased. The coin will leave contact with the platform for the first time
    [2006]
  • Question 152/170
    4 / -1
    Mark Review
    The maximum velocity of a particle, executing simple harmonic motion with an amplitude 7mm, is 4.4ms. The period of oscillation is
    [2006]
    The maximum velocity of a particle, executing simple harmonic motion with an amplitude 7mm, is 4.4ms. The period of oscillation is
    [2006]
  • Question 153/170
    4 / -1
    Mark Review
    Starting from the origin a body oscillates simple harmonically with a period of 2s. After what time will its kinetic energy be 75% of the total energy?
    [2006]
    Starting from the origin a body oscillates simple harmonically with a period of 2s. After what time will its kinetic energy be 75% of the total energy?
    [2006]
  • Question 154/170
    4 / -1
    Mark Review
    The function sin2(ωt) represents
    [2005]
    The function sin2(ωt) represents
    [2005]
  • Question 155/170
    4 / -1
    Mark Review
    Two simple harmonic motions are represented by the equations y1=0.1sin(100πt+
    π
    3
    )     and y2=0.1cosπt The phase difference of the velocity of particle 1 with respect to the velocity of particle 2 is
    [2005]
    Two simple harmonic motions are represented by the equations y1=0.1sin(100πt+
    π
    3
    )     and y2=0.1cosπt The phase difference of the velocity of particle 1 with respect to the velocity of particle 2 is
    [2005]
  • Question 156/170
    4 / -1
    Mark Review
    The bob of a simple pendulum is a spherical hollow ball filled with water. A plugged hole near the bottom of the oscillating bob gets suddenly unplugged. During observation, till water is coming out, the time period of oscillation would
    [2005]
    The bob of a simple pendulum is a spherical hollow ball filled with water. A plugged hole near the bottom of the oscillating bob gets suddenly unplugged. During observation, till water is coming out, the time period of oscillation would
    [2005]
  • Question 157/170
    4 / -1
    Mark Review
    If a simple harmonic motion is represented by
    d2x
    dt2
    +αx    =0    ,     its time period is
    [2005]
    If a simple harmonic motion is represented by
    d2x
    dt2
    +αx    =0    ,     its time period is
    [2005]
  • Question 158/170
    4 / -1
    Mark Review
    The total energy of a particle, executing simple harmonic motion is
    where x is the displacement from the mean position, hence total energy is independent of x
    [2004]
    The total energy of a particle, executing simple harmonic motion is
    where x is the displacement from the mean position, hence total energy is independent of x
    [2004]
  • Question 159/170
    4 / -1
    Mark Review
    The bob of a simple pendulum executes simple harmonic motion in water with a period t, while the period of oscillation of the bob is t0 in air. Neglecting frictional force of water and given that the density of the bob is (
    4
    3
    )    ×1000kg    m3    . Which relationship between t and t0 is true?
    [2004]
    The bob of a simple pendulum executes simple harmonic motion in water with a period t, while the period of oscillation of the bob is t0 in air. Neglecting frictional force of water and given that the density of the bob is (
    4
    3
    )    ×1000kg    m3    . Which relationship between t and t0 is true?
    [2004]
  • Question 160/170
    4 / -1
    Mark Review
    A particle at the end of a spring executes S.H.M with a period t1. while the corresponding period for another spring is t2. If the period of oscillation with the two springs in series is T then
    [2004]
    A particle at the end of a spring executes S.H.M with a period t1. while the corresponding period for another spring is t2. If the period of oscillation with the two springs in series is T then
    [2004]
  • Question 161/170
    4 / -1
    Mark Review
    In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of the force while the energy is maximum for a frequency ω2 of the force; then
    [2004]
    In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of the force while the energy is maximum for a frequency ω2 of the force; then
    [2004]
  • Question 162/170
    4 / -1
    Mark Review
    A particle of mass m is attached to a spring (of spring constant k ) and has a natural angular frequency ω0. An external force F(t) proportional to cosωt(ωω0) is applied to the oscillator. The displacement of the oscillator will be proportional to
    [2004]
    A particle of mass m is attached to a spring (of spring constant k ) and has a natural angular frequency ω0. An external force F(t) proportional to cosωt(ωω0) is applied to the oscillator. The displacement of the oscillator will be proportional to
    [2004]
  • Question 163/170
    4 / -1
    Mark Review
    Two particles A and B of equal masses are suspended from two massless springs of spring constants k1 and k2, respectively. If the maximum velocities, during oscillation, are equal, the ratio of amplitude of A and B is
    [2003]
    Two particles A and B of equal masses are suspended from two massless springs of spring constants k1 and k2, respectively. If the maximum velocities, during oscillation, are equal, the ratio of amplitude of A and B is
    [2003]
  • Question 164/170
    4 / -1
    Mark Review
    The displacement of a particle varies according to the relation x=4(cosπt+sinπt). The amplitude of the particle is
    [2003]
    The displacement of a particle varies according to the relation x=4(cosπt+sinπt). The amplitude of the particle is
    [2003]
  • Question 165/170
    4 / -1
    Mark Review
    A body executes simple harmonic motion. The potential energy (P.E), the kinetic energy (K.E) and total energy (T.E) are measured as a function of displacement x. Which of the following statements is true ?
    [2003]
    A body executes simple harmonic motion. The potential energy (P.E), the kinetic energy (K.E) and total energy (T.E) are measured as a function of displacement x. Which of the following statements is true ?
    [2003]
  • Question 166/170
    4 / -1
    Mark Review
    A mass M is suspended from a spring of negligible mass. The spring is pulled a little and then released so that the mass executes SHM of time period T. If the mass is increased by m, the time period becomes
    5T
    3
    . Then the ratio of
    m
    M
     is
    [2003]
    A mass M is suspended from a spring of negligible mass. The spring is pulled a little and then released so that the mass executes SHM of time period T. If the mass is increased by m, the time period becomes
    5T
    3
    . Then the ratio of
    m
    M
     is
    [2003]
  • Question 167/170
    4 / -1
    Mark Review
    The length of a simple pendulum executing simple harmonic motion is increased by 21%. The percentage increase in the time period of the pendulum of increased length is
    [2003]
    The length of a simple pendulum executing simple harmonic motion is increased by 21%. The percentage increase in the time period of the pendulum of increased length is
    [2003]
  • Question 168/170
    4 / -1
    Mark Review
    In a simple harmonic oscillator, at the mean position
    [2002]
    In a simple harmonic oscillator, at the mean position
    [2002]
  • Question 169/170
    4 / -1
    Mark Review
    If a spring has time period T, and is cut into n equal parts, then the time period of each part will be
    [2002]
    If a spring has time period T, and is cut into n equal parts, then the time period of each part will be
    [2002]
  • Question 170/170
    4 / -1
    Mark Review
    A child swinging on a swing in sitting position, stands up, then the time period if the swing will
    [2002]
    A child swinging on a swing in sitting position, stands up, then the time period if the swing will
    [2002]
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