A solid body starts rotating about a sta...

A solid body starts rotating about a stationary axis with an angular acceleration `alpha=(2.0xx10^(-2))t` ` rad//s^(2)` here `t` is in seconds. How soon after the beginning of rotation will the total acceleration vector of an arbitrary point of the body form an angle `theta=60^(@)` with its velocity vector?

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

A stationary wheel starts rotating about its own axis at constant angular acceleration. If the wheel completes 50 rotations in first 2 seconds, then the number of rotations made by itin next two seconds is

A ball starts moving in a circular slot with angular acceleration alpha = 2 rad //s^2 at t=0 The angle between its velocity and acceleration varies with time as

A body rotates about a fixed axis with an angular acceleration 1rad//s^(2) through what angle does it rotates during the time in which its angular velocity increases from 5rad//s to 15rad//s ?

A body rotates about a fixed axis with an angular acceleration of 3 rad//s^(2) . The angle rotated by it during the time when its angular velocity increases frm 10 rad/s to 20 rad/s (in radian) is

A particle is rotating about a fixed axis with angular acceleration vecalpha = (3hati +hatj +hatk) rad//s^2 . The tangential acceleration of a point having radius vectorn (2hati - hatj - hatk) m from axis of rotation is (in m/s^2 )

A flywheel starts rotating from rest when a torque is applied on it, with a uniform angular acceleration of 5 "rad"//s^(2) . What is the angular displacement of the flywheel in the 5th Second ?

A particle is rotating about a fixed axis with angular acceleration vecalpha = hati + 2hatj + 3hatk rad/ s^2 . Find the tangential acceleration of a point having radius vector (2hati-3hatj+hatk) m from axis of rotation in (in m/ s^2 )

A particle starts from rest with a time varying acceleration a=(2t-4) . Here t is in second and a in m//s^(2) The velocity time graph of the particle is

Find the angular velocity of a body rotating with an acceleration of 2rev/s^2 as it completes the 5th revolution after the start

A body rotates about a fixed axis with an angular acceleration of one radian/second/second. Through what angle does it rotate during the time in which its angular velocity increases from 5 rad/s to 15 rad/s.

Text Solution

Similar Questions

Recommended Questions