Question

A uniform disc of mass M and radius 'R' is supported vertically by a pivot at its periphery as shown. A particle of mass M is fixed to the rim and raised to highest point above the centre. The system is released from rest and it can rotate about pivot freely. The angular speed of system when it attached object is directly beneath the pivot, is ______.

विकल्प

• `sqrt((48"g")/(19"R"))`

• `sqrt(24/19"g"/"R")`

• `sqrt(48/11"g"/"R")`

• `sqrt(24/11"g"/"R")`

Answer 1

A uniform disc of mass M and radius 'R' is supported vertically by a pivot at its periphery as shown. A particle of mass M is fixed to the rim and raised to highest point above the centre. The system is released from rest and it can rotate about pivot freely. The angular speed of system when it attached object is directly beneath the pivot, is `bb(sqrt((48"g")/(19"R")))`.

Explanation:

MI of mass and Disc

= 4MR² + `3/4`MR² 

= `19/4`MR²

Initial PE = MgR + Mg (2R) = 3 MgR

Final PE = Mg (–R) + Mg (–2R) = – 3 MgR

∴ –∆PE = ∆KE ⇒ Iw² = 6 MgR

∴ ω = `sqrt(6 "MgR"xx2)/((19//4)"MR"^2)`

= `sqrt(48/19"g"/"R")`