The general motion of a rigid body can b...

The general motion of a rigid body can be considered to be a combination of (i) a motion of its centre of mass about an axis, and (ii) its motion about an instantaneous exis passing through the centre of mass. These axes need not be stationary. Consider, for example, a thin uniform disc welded (rigidly fixed) horizontally at its rim to a massless, stick as shown in the figure. When the disc-stick system is rotated about the origin on a horizontal frictionless plane with angular speed `omega` the motion at any instant can be taken as a combination of (i) a rotation of the disc through an instantaneous vertical axis passing through its centre of mass (as is seen from the changed orientation of points P and Q). Both these motions have the same angular speed `omega` in this case

Now consider two similar system as shown in the figure: Case (a) the disc with its face vertical and parallel to x-z plane, Case (b) the disc with its face making an angle of `45^@` with x-y plane and its horizontal diameter parallel to x-axis. In both the cases, the disc is welded at point P, and the systems are rotated with constant angular speed `omega` about the z-axis.

Which of the following statements regarding the angular speed about the instantaneous axis (passing through the centre of mass) is correct?

It is `sqrt(2)omega` for both the cases

It is `omega` for case (a) , and `omega/sqrt(2)` for case (b)

It is `omega` force case (a) , and `sqrt(2)omega` for case (b)

If `omega` for both the cases.

Text Solution

Verified by Experts

The correct Answer is:

Angular speed about the instantaneous axis passing through centre of mass is `omega` for both the cases.

Topper's Solved these Questions

ROTATIONAL MOTION
VMC MODULES ENGLISH|Exercise JEE Advanced (Archive) (ASSERTION & REASON TYPE)|2 Videos
ROTATIONAL MOTION
VMC MODULES ENGLISH|Exercise JEE Advanced (Archive) (MATRIX MATCH TYPE)|1 Videos
ROTATIONAL MOTION
VMC MODULES ENGLISH|Exercise JEE Advanced (Archive) (MULTIPLE OPTIONS CORRECT TYPE)|17 Videos
REVISION TEST-2 JEE
VMC MODULES ENGLISH|Exercise PHYSICS|25 Videos
SIMPLE HARMONIC MOTION
VMC MODULES ENGLISH|Exercise 7-previous year question|46 Videos

Similar Questions

Explore conceptually related problems

The general motion of a rigid body can be considered to be a combination of (i) a motion of its centre of mass about an axis, and (ii) its motion about an instantaneous exis passing through the centre of mass. These axes need not be stationary. Consider, for example, a thin uniform disc welded (rigidly fixed) horizontally at its rim to a massless, stick as shown in the figure. When the disc-stick system is rotated about the origin on a horizontal frictionless plane with angular speed omega the motion at any instant can be taken as a combination of (i) a rotation of the disc through an instantaneous vertical axis passing through its centre of mass (as is seen from the changed orientation of points P and Q). Both these motions have the same angular speed omega in this case Now consider two similar system as shown in the figure: Case (a) the disc with its face vertical and parallel to x-z plane, Case (b) the disc with its face making an angle of 45^@ with x-y plane and its horizontal diameter parallel to x-axis. In both the cases, the disc is welded at point P, and the systems are rotated with constant angular speed omega about the z-axis. . Which of the following statements about the instantaneous axis (passing through the centre of mass) is correct?

Motion of the Centre of Mass

The radius of gyration of a uniform rod of length L about an axis passing through its centre of mass is

A horizontal disc is rotating about a vertical axis passing through its centre. If an insect moves from centre to rim then the angular momentum of the system

Radius of gyration of a uniform circular disc about an axis passing through its centre of gravity and perpendicular to its plane is

If a circular concentric hole is made on a disc then about an axis passing through the centre of the disc and perpendicular to its plane

The moment of inertia of a copper disc, rotating about an axis passing through its centre and perpendicular to its plane

Derive an expression per the M.I. of a rectangular rod about an axis passing through its centre of mass and perpendicular to its length.

Radius of gyration of a body about an axis at a distance 6 cm from its centre of mass is 10 cm. Find its radius of gyration about a parallel axis through its centre of mass.

The mass of a body cannot be considered to be concentrated at the centre of mass of the body for the purpose of computing its moment of inertia. For then the moment of inertia of every body about an axis passing through its centre of mass would be zero.

VMC MODULES ENGLISH-ROTATIONAL MOTION -JEE Advanced (Archive) (LINKED COMPREHENSIVE TYPE)

Two discs A and B are mounted coaxially on a vertical axle. The discs ...
Text Solution
|
Two discs A and B are mounted coaxially on a vertical axle. The discs ...
Text Solution
|
Two discs A and B are mounted coaxially on a vertical axle. The discs ...
Text Solution
|
The general motion of a rigid body can be considered to be a combinati...
Text Solution
|
The general motion of a rigid body can be considered to be a combinati...
Text Solution
|
A frame of reference that is accelerated with respect to an inertial f...
Text Solution
|
A frame of reference that is accelerated with respect to an inertial f...
Text Solution
|