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In the figure shown, mass of the plank is m and that of the so

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In the figure shown, mass of the plank is $m$ and that of the solid cylinder is $8 m$ . Springs are light. The plank is slightly displaced from equilibrium and then released. Find the period of small oscillations (in seconds) of the plank. There is no slipping at any contact point. The ratio of the mass of the plank and stiffness of the spring i.e. $\frac{m}{K} = \frac{2}{π ^{2}} .$ There is an isolated planet having mass $2 M$ and radius $2 R$ , where $M$ and $R$ are the mass and

Name: Video solution 1: In the figure shown, mass of the plank is m and that of the solid cylinder is 8 m. Springs are light. The plank is slightly displaced from equilibrium and then released. Find the period of small oscillations (in seconds) of the plank. There is no slipping at any contact point. The ratio of the mass of the plank and stiffness of the spring i.e. Km=π22. There is an isolated planet having mass 2M and radius 2R, where M and R are the mass and
Uploaded: 2022-08-05T17:39:57.000Z
Duration: 7 min

Views: 5,147 students

Updated on: Aug 5, 2022

Found 2 tutors discussing this question

Henry Discussed

In the figure shown, mass of the plank is

m

and that of the solid cylinder is

8 m

. Springs are light. The plank is slightly displaced from equilibrium and then released. Find the period of small oscillations (in seconds) of the plank. There is no slipping at any contact point. The ratio of the mass of the plank and stiffness of the spring i.e.

\frac{m}{K} = \frac{2}{π ^{2}} .

There is an isolated planet having mass

2 M

and radius

2 R

, where

M

and

R

are the mass and

15 mins ago

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Uploaded on: 8/5/2022

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Question Text	In the figure shown, mass of the plank is $m$ and that of the solid cylinder is $8 m$ . Springs are light. The plank is slightly displaced from equilibrium and then released. Find the period of small oscillations (in seconds) of the plank. There is no slipping at any contact point. The ratio of the mass of the plank and stiffness of the spring i.e. $\frac{m}{K} = \frac{2}{π ^{2}} .$ There is an isolated planet having mass $2 M$ and radius $2 R$ , where $M$ and $R$ are the mass and
Updated On	Aug 5, 2022
Topic	Mechanics
Subject	Physics
Class	Class 12
Answer Type	Video solution: 1
Upvotes	146
Avg. Video Duration	7 min

Filo tutor solutions (1)

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