Question Answers

Sahay Sir > Question Answers
In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of force, while the energy is maximum for a frequency ω2 ​of the force, then:
06
Nov
In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of force, while the energy is maximum for a frequency ω2 ​of the force, then: In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of force then while the energy is maximum for a frequency ω2 [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: In forced oscillation of a particle the amplitude is maximum for a frequency ω1 of force , then , while the energy is maximum for a frequency ω2 ​of the force ,
A particle of mass (m) is attached to a spring (of spring constant k) and has a natural angular frequency omega_(0). An external force R(t) proportional to cos omega t(omega!=omega)(0) is applied to the oscillator. The time displacement of the oscillator will be proportional to.
06
Nov
A particle of mass (m) is attached to a spring (of spring constant k) and has a natural angular frequency omega_(0). An external force R(t) proportional to cos omega t(omega!=omega)(0) is applied to the oscillator. The time displacement of the oscillator will be proportional to. If a simple harmonic motion is represented by d^2x/dt^2 + [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: If a simple harmonic motion is represented by d^2x/dt^2 + αx = 0 , its time period is ,
The bob of simple pendulum executes SHM 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 x 1000 kgm^−3 , what relationship between T and T0 is true ?
06
Nov
The bob of simple pendulum executes SHM 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 x 1000 kgm^−3 , what relationship between T and T0 is true ? The bob [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: The bob of simple pendulum executes SHM in water with a period T , what relationship between T and T0 is true ? , 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 x 1000 kgm^−3 ,
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
06
Nov
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 The bob of a simple pendulum is a spherical hollow ball filled with water. A [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: 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 , the time period of oscillation would , till water is coming out ,
If a simple harmonic motion is represented by d^2x/dt^2 + αx = 0, its time period is
06
Nov
If a simple harmonic motion is represented by d^2x/dt^2 + αx = 0, its time period is If a simple harmonic motion is represented by d^2x/dt^2 + αx = 0 its time period is November 6, 2020 Category: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: If a simple harmonic motion is represented by d^2x/dt^2 + αx = 0 , its time period is ,
Two simple harmonic motions are represented by the equations y1 = 0.1sin (100 πt + 3/π ) and y2 ​= 0.1cos πt. The phase difference of the velocity of particle 1 with respect to velocity of particle 2 is
06
Nov
Two simple harmonic motions are represented by the equations y1 = 0.1sin (100 πt + 3/π ) and y2 ​= 0.1cos πt. The phase difference of the velocity of particle 1 with respect to velocity of particle 2 is the frequency of oscillation becomes Two springs of force constants k1 and k2 are connected to [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: the frequency of oscillation becomes , Two springs of force constants k1 and k2 are connected to a mass m as shown below. The frequency of oscillation of the mass is f. If both k1 and k2 are made four times their original values ,
The displacement of an object attached to a spring and executing simple harmonic motion is given by x = 2×10^−2 cos πt metre. The time at which the maximum speed first occurs is.
06
Nov
The displacement of an object attached to a spring and executing simple harmonic motion is given by x = 2×10^−2 cos πt metre. The time at which the maximum speed first occurs is. The displacement of an object attached to a spring and executing simple harmonic motion is given by x = 2×10^−2 cos πt [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: The displacement of an object attached to a spring and executing simple harmonic motion is given by x = 2×10^−2 cos πt metre. The time at which the maximum speed first occurs is. ,
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 :
06
Nov
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 : A particle of mass m executes simple harmonic motion with amplitude 'a' and frequency 'v'. The average kinetic energy during its motion from [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: 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 : ,
Two springs of force constants k1 and k2 are connected to a mass m as shown below. 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
06
Nov
Two springs of force constants k1 and k2 are connected to a mass m as shown below. 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 the frequency of oscillation becomes Two springs of force constants k1 and [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: the frequency of oscillation becomes , Two springs of force constants k1 and k2 are connected to a mass m as shown below. The frequency of oscillation of the mass is f. If both k1 and k2 are made four times their original values ,
A point mass oscillates along the x-axis according to the law x = x0 cos(ωt − 4/π ​). If the acceleration of the particle is written as a = A cos (ωt + δ), then
06
Nov
A point mass oscillates along the x-axis according to the law x = x0 cos(ωt − 4/π ​). If the acceleration of the particle is written as a = A cos (ωt + δ), then A point mass oscillates along the x-axis according to the law x = x0 cos(ωt − 4/π ​). If the [...]
Posted in: Chapter 10 - Oscillation and Waves , JEE Mains Physics 2002-2019 Solved Video Solutions ,
Tags: A point mass oscillates along the x-axis according to the law x = x0 cos(ωt − 4/π ​). If the acceleration of the particle is written as a = A cos (ωt + δ) , then ,