Question

a body is in limiting equilibrium on a rough inclined plane at angle of 30degree with horizontal. calculate the acceleration with which the body will slide down when inclination of the plane is changed to 60degree.?

Answer 1

In first case when the body is in limiting equilibrium at angle of inclination of the inclined plane, `30^@`
then the downward force along the inclined plane is just balanced by the frictional force ,. So we have

`mgsintheta =mumgcostheta`

`mu =sintheta/costheta=tan30^@=1/sqrt3`,

where

`m->"mass of the body"`

`theta ->"angle of inclination of the inclined plane"=30^@`

`mu->"coefficient of friction"`

`g->"acceleration due to gravity"`

In the second case when the angle of inclination is `theta=60^@` we have net downward force on the body along the inclined plane

`F=mgsintheta-mumgcostheta`

So acceleration of the body

`a=F/m=g(sintheta-mucostheta)`

`=g(sin60^@-1/sqrt3cos60^@)`

`=g(sqrt3/2-1/sqrt3xx1/2)`

`=g/2(sqrt3-1/sqrt3)`

`=g/2((3-1)/sqrt3)=g/sqrt3`