A linear harmonic oscillator of force co...

A linear harmonic oscillator of force constant `2 xx 10^(6) N //m` and amplitude 10 mm has a total mechanical energy is 160 J . Its

Maximum potential energy is100J

Maximum kinetic energy is 100J

Maximum potential energy is160 J

Maximum potential energy is zero.

Text Solution

Verified by Experts

The correct Answer is:

2,3

Topper's Solved these Questions

OSCILLATIONS
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT (SECTION -D( Comprehension) )|3 Videos
OSCILLATIONS
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT ( SECTION-E(ASSERTION-REASON TYPE QUESTION) )|13 Videos
OSCILLATIONS
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT (SECTION-B )|25 Videos
NUCLEI
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT (SECTION-D)|10 Videos
PHYSICAL WORLD
AAKASH INSTITUTE ENGLISH|Exercise ASSIGNMENT (Section-B)|4 Videos

Similar Questions

Explore conceptually related problems

A linear harmonic oscillator of force constant 2 xx 10^(6)N//m and amplitude 0.01 m has a total mechanical energy of 160 J . Its

A linear harmonic oscillator of force constant 2 xx 10^6 N//m and amplitude (0.01 m) has a total mechanical energy of (160 J). Its.

A linear harmonic oscillator of force constant 6 xx 10^(5) N/m and amplitude 4cm, has a total energy 600J. Select the correct statement.

A harmonic oscillation of force constant 4xx10^(6) Nm^(-1) and amplitude 0.01 m has total energy 240 J. What is maximum kinetic energy and minimum potential energy?

For the spring pendulum shown in fig. the value of spring constant is 3xx10^4(N)/(m) and amplitude of oscillation is 0.1m . The total mechanical energy of oscillating system is 200 J. Mark out the correct option (s).

Passage I) In simple harmonic motion force acting on a particle is given as F=-4x , total mechanical energy of the particle is 10 J and amplitude of oscillations is 2m, At time t=0 acceleration of the particle is -16m/s^(2) . Mass of the particle is 0.5 kg. At x=+1m, potential energy and kinetic energy of the particle are

Passage I) In simple harmonic motion force acting on a particle is given as F=-4x , total mechanical energy of the particle is 10 J and amplitude of oscillations is 2m, At time t=0 acceleration of the particle is -16m/s^(2) . Mass of the particle is 0.5 kg. Potential energy of the particle at mean position is

Passage I) In simple harmonic motion force acting on a particle is given as F=-4x , total mechanical energy of the particle is 10 J and amplitude of oscillations is 2m, At time t=0 acceleration of the particle is -16m/s^(2) . Mass of the particle is 0.5 kg. Displacement time equation equation of the particle is

AAKASH INSTITUTE ENGLISH-OSCILLATIONS-ASSIGNMENT ( SECTION-C )

Which of the following will change the time period as they are taken t...
Text Solution
|
If abody starts executing S.H.M. from mean position with amplitude 'A...
Text Solution
|
If a particle is moving as vec(r) = ( vec(i) +2 vec(j))cosomega (0) t...
Text Solution
|
A particle is executing S.H.M. Ifu(1) and u(2) are the velocitiesof th...
Text Solution
|
If the inertial mass m(1) of the bob of a simple pendulum of length 'l...
Text Solution
|
If the P.E. of a system of two atoms ( diatomic molecule) is given by ...
Text Solution
|
Which of the following equations represent S.H.M. ?
Text Solution
|
If a= -omega^(2) x represents the acceleration of a particle executin...
Text Solution
|
A ball is dropped from height 'h' as shown.The collision is perfectly ...
Text Solution
|
A linear harmonic oscillator of force constant 2 xx 10^(6) N //m and a...
Text Solution
|
Three simple harmonic motions in the same direction having the same am...
Text Solution
|