A mass m is undergoing SHM in the vertic...

A mass m is undergoing SHM in the verticl direction about the mean position `y_(0)` with amplitude A and anglular frequency `omega`. At a distance `y` form the mean position, the mass detached from the spring. Assume that th spring contracts and does not obstruct the motion of `m`. Find the distance `y`. (measured from the mean position). such that height h attained by the block is maximum `(Aomega^(2) gt g)`.

Text Solution

Verified by Experts

The correct Answer is:

`(g/omega^(2))`

`((g)/(omega^(2)))`
Speed of block at `y^(star)=omegasqrt(A^(2)-y^(2))`
Height h attained by the block after detachment =`(omega^(2)(A^(2)-y^(star2)))/(2g)+y^(star)`
Total height attained by the block ` H=(omega^(2)(A^(2)-y^(star2)))/(2g)+y^(star)`
For H to be maximum, `(dH)/(dy^(star))=0impliesy^(star)=(g)/(omega^(2))`

Topper's Solved these Questions

SIMPLE HARMONIC MOTION
VMC MODULES ENGLISH|Exercise 6-previous year question|56 Videos
ROTATIONAL MOTION
VMC MODULES ENGLISH|Exercise JEE Advanced (Archive) (True/False Type)|3 Videos
SYSTEM OF A PARTICLES & ROTATIONAL MOTION
VMC MODULES ENGLISH|Exercise IN-CHAPTER EXERCISE F|10 Videos

Similar Questions

Explore conceptually related problems

A block is performin SHM of amplitude 'A' in vertical direction. When block i8s at 'y' (measured from mean position), it detaches froms spring, so that spring contracts and does not effect the motion of the block. Find 'y*' such that block attains maximum height from the mean position. (given Aomega^(2) gt g )

A partical excutes SHM with amplitude A and angular frequency omega . At an instant the particle is at a distance A//5 from the mean position and is moving away from it. Find the time after which it will come back to this position again and also find the time after which it will pass through the mean position.

find the potential energy of the block at 0.05 m from the mean position

The equation of a S.H.M. of amplitude A and angular frequency omega in which all distances are measured from one extreme position and time is taken to be zero at the other extreme position is

In a S.H.M. with amplitude 'A', what is the ratio of K.E. and P.E. at (A)/(2) distance from the mean position ?

For examples , find the potential energy of the block at 0.05 m from the mean position

The amplitude and the periodic time of a S.H.M. are 5 cm and 6 sec respectively. At a distance of 2.5 cm away from the mean position, the phase will be

particle is executing SHM of amplitude A and angular frequency omega.The average acceleration of particle for half the time period is : (Starting from mean position)

A particle performing SHM with amplitude 10cm . At What distance from mean position the kinetic energy of the particle is thrice of its potential energy ?

A particle executed S.H.M. starting from its mean position at t=0 , If its velocity is sqrt3bomega , when it is at a distance b from the mean positoin, when omega=(2pi)/(T) , the time taken by the particle to move from b to the extreme position on the same side is

VMC MODULES ENGLISH-SIMPLE HARMONIC MOTION -7-previous year question

When a particle is mass m moves on the x- axis in a potential of the f...
Text Solution
|
When a particle is mass m moves on the x- axis in a potential of the f...
Text Solution
|
When a particle is mass m moves on the x- axis in a potential of the f...
Text Solution
|
Phase space diagrams are useful tools in analysing all kond of dynamic...
Text Solution
|
Phase space diagrams are useful tools in analyzing all kinds of dynami...
Text Solution
|
Phase space diagrams are useful tools in analyzing all kinds of dynami...
Text Solution
|
Column I gives some devices and Column II given some processes on whic...
Text Solution
|
Column I gives a listof possible set of parameters measured in some ex...
Text Solution
|
A mass (M) attached to a spring, oscillates with a period of (2 sec). ...
Text Solution
|
A block is kept on a horizontal table. The table is undergoing simple ...
Text Solution
|
A particle executes S.H.M. between x = -A and x = + A. The time taken ...
Text Solution
|
A 0.1 kg mass is suspended from a wire of negligible mass. The length...
Text Solution
|
A spring-block system is resting on a frictionless floor as shown in t...
Text Solution
|
An ideal gas enclosed in a vertical cylindrical container supports a f...
Text Solution
|
Two masses m 1 and m 2 are suspended together by a massless spring of ...
Text Solution
|
The equations of displacement of two waves are y(1)=10"sin"(3pit+pi...
Text Solution
|
The velocity of the liquid coming out of a small hole of a vessel cont...
Text Solution
|
An object of mass 0.2 kg executes simple harmonic oscillation along th...
Text Solution
|
A thin rod of length L and area of cross section S is pivoted at its l...
Text Solution
|
A mass m is undergoing SHM in the verticl direction about the mean pos...
Text Solution
|