MEDIUM

JEE Main

IMPORTANT

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A particle of mass $1 mg$ and charge $q$ is lying at the mid-point of two stationary particles kept at a distance $2 m$ when each is carrying same charge $q$ . If the free charged particle is displaced from its equilibrium position through distance $x$ $(x < < 1 m)$ . The particle executes SHM. Its angular frequency of oscillation will be _______ $\times 10^{5} rad s^{- 1}$ (if $q^{2} = 10 C^{2}$ )

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Important Questions on Oscillations

HARD

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main - 25 July 2021 Shift 2>Q 13

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.

MEDIUM

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main - 27 July 2021 Shift 1>Q 14

A particle starts executing simple harmonic motion

(SHM)

of amplitude

a

and total energy

E .

At any instant, its kinetic energy is

\frac{3 E}{4}

, then its displacement

y

is given by:

HARD

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main - 27 July 2021 Shift 2>Q 15

An object of mass

0.5 kg

is executing simple harmonic motion. It amplitude is

5 cm

and time period (T) is

0.2 s

. What will be the potential energy of the object at an instant

t = \frac{T}{4} s

starting from mean position. Assume that the initial phase of the oscillation is zero.

HARD

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main - 27 July 2021 Shift 2>Q 16

A particle executes simple harmonic motion represented by displacement function as

x (t) = A \sin (ω t + ϕ)

. If the position and velocity of the particle at

t = 0 s

are

2 cm

and

2 ω cm s^{- 1}

respectively, then its amplitude is

x \sqrt{2} cm

where the value of

x

EASY

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main 16 March 2021 Shift 1>Q 17

Time period of a simple pendulum is

T

inside a lift when the lift is stationary. If the lift moves upwards with an acceleration

\frac{g}{2}

, the time period of pendulum will be :

EASY

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main 16 March 2021 Shift 2>Q 18

The amplitude of a mass-spring system, which is executing simple harmonic motion decreases with time. If mass

= 500 g

, Decay constant

= 20 g s^{- 1}

then how much time is required for the amplitude of the system to drop to half of its initial value?

(\ln 2 = 0.693)

EASY

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main 17 March 2021 Shift 1>Q 19

For what value of displacement the kinetic energy and potential energy of a simple harmonic oscillation become equal?

EASY

JEE Main

IMPORTANT

EMBIBE CHAPTER WISE PREVIOUS YEAR PAPERS FOR PHYSICS>Chapter 11 - Oscillations>JEE Main 17 March 2021 Shift 1>Q 20

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 $\frac{T_{b}}{T_{a}} = \sqrt{x},$ where value of $x$ is ______.

(Round off to the Nearest Integer)

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Important Questions on Oscillations

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