Problem 2.Radius R=2m and massM₂ 30ng is turninginon thea horizontal plane, around a vertical axis.On the axis, acts a uniform frictional torque to..A lump of clay, with mass m = 2,5 kg fallsdisc, at a distance d = 1.8m from the axis and itremains glued to the dise. The dimensionsthe lampare such that itbe considered likeA disc ofofofa materialmaypoint. kle know that immediately before the collisionthe angular velocity63 W₁= Hπ radls and the diseComes to rest after 30.5 tums. Find :a) the angular Velocity Wa of the system Immediatelyafter the collisionb) the frictional torque toPlease answer the above question Step-wise, Showingdetailed explanations, including diagrams hereThanks in adhlanced !!!pecessary.

Answered: Image /qna-images/answer/e825f38d-a06a-4248-b24e-7d68c0fc3b83.jpg

A diso is turning of Radius R=2m and mass M₂ 30ng in a horizontal plane, around a vertical axis. On the axis, acts a uniform frictional torque To. A lump of clay, with mass M = 2,5 kg falls on the disc, at a distance d = 1.8m from the axis and it the lamp remains glued to the dise. The dimensions may og are such that it be considered like a material point. We know that immediately before the collision the angular velocity & W₁= HII radls and the disc

A diso is turning of Radius R=2m and mass M₂ 30ng in a horizontal plane, around a vertical axis. On the axis, acts a uniform frictional torque To. A lump of clay, with mass M = 2,5 kg falls on the disc, at a distance d = 1.8m from the axis and it the lamp remains glued to the dise. The dimensions may og are such that it be considered like a material point. We know that immediately before the collision the angular velocity & W₁= HII radls and the disc

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Question

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Problem 2.
Radius R=2m and mass
M₂ 30ng is turning
in
on the
a horizontal plane, around a vertical axis.
On the axis, acts a uniform frictional torque to..
A lump of clay, with mass m = 2,5 kg falls
disc, at a distance d = 1.8m from the axis and it
remains glued to the dise. The dimensions
the lamp
are such that it
be considered like
A disc of
of
of
a material
may
point. kle know that immediately before the collision
the angular velocity
63 W₁= Hπ radls and the dise
Comes to rest after 30.5 tums. Find :
a) the angular Velocity Wa of the system Immediately
after the collision
b) the frictional torque to
Please answer the above question Step-wise, Showing
detailed explanations, including diagrams here
Thanks in adhlanced !!!
pecessary.

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Step 2: Conservation of angular momentum and angular velocity after collision

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Step 3: Calculating the angular acceleration and frictional torque

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