Home
Class 12
PHYSICS
Two point masses m(1) and m(2) are fixed...

Two point masses `m_(1)` and `m_(2)` are fixed to a light rod hinged at one end. The masses are at distances `l_(1)` and `l_(2)` repsectively from the hinge. Find the time period of oscillation (small amplitude) of this system in seconds if `m_(1) = m_(2), l_(1) = 1m, l_(2) = 3m`. If the time period is `xpi`, then find `x`.

Text Solution

Verified by Experts

The correct Answer is:
1
Net rostoring about `O`
`= m_(1)gl_(1) sintheta + m_(2)gl_(2) sintheta = (m_(1)l_(1) + m_(2)l_(2))g sintheta`
`rArr tau_("restoring") = (m_(1)l_(1) + m_(2)l_(2))g sintheta`
compare with `tau = Ctheta`
`T = 2pi sqrt((I_(o))/(C)) = 2pisqrt(((m_(1)l_(1)^(2) + m_(2)l_(2)^(2)))/((m_(1)l_(1)^(2) + m_(2))g))= 1 pi`.
Promotional Banner

Topper's Solved these Questions

  • SIMPLE HARMONIC MOTION

    RESONANCE ENGLISH|Exercise Exercise- 3, PART - II|17 Videos

  • SEMICONDUCTORS

    RESONANCE ENGLISH|Exercise Exercise 3|88 Videos

  • TEST PAPERS

    RESONANCE ENGLISH|Exercise PHYSICS|784 Videos

Similar Questions

Explore conceptually related problems

Block of mass m_(2) is in equilibrium as shown in figure. Anotherblock of mass m_(1) is kept gently on m_(2) . Find the time period of oscillation and amplitude.

Block of mass m_(2) is in equilibrium as shown in figure. Anotherblock of mass m_(1) is kept gently on m_(2) . Find the time period of oscillation and amplitude.

There is a rod of length l and mass m . It is hinged at one end to the ceiling. The period of small oscillation is

The system is in equilibrium and at rest. Now mass m_(1) is removed from m_(2) . Find the time period and amplituded of resultant motion. Spring constant is K .

A uniform rod of length 1.00 m is suspended through an end and is set into oscillation with small amplitude under gravity. Find the time period of oscillation.

Two particle of mass m each are fixed to a massless rod of length 2l . The rod is hinged at one end about a smooth hinge and it performs oscillations of small angle in vertical plane. The length of the equivalent simple pendulum is:

If lt l_(1), m_(1), n_(1)gt and lt l_(2), m_(2), n_(2) gt be the direction cosines of two lines L_(1) and L_(2) respectively. If the angle between them is theta , the costheta=?

A uniform rod ofmass M and length L is hanging from its one end free to rotate in a veritcal plane.A small ball of equal mass is attached of the lowe end as shown. Time period of small oscillations of the rod is

A planet of mass M, has two natural satellites with masses m1 and m2. The radii of their circular orbits are R_(1) and R_(2) respectively. Ignore the gravitational force between the satellites. Define v_(1), L_(1), K_(1) and T_(1) to be, respectively, the orbital speed, angular momentum, kinetic energy and time period of revolution of satellite 1 , and v_(2), L_(2), K_(2) and T_(2) to be he corresponding quantities of satellite 2. Given m_(1)//m_(2) = 2 and R_(1)//R_(2) = 1//4 , match the ratios in List-I to the numbers in List-II.

A uniform rod of mass m and length l is suspended about its end. Time period of small angular oscillations is