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A disc of mass M and radius R = 3m is suspended in a vertical plane by a horizontal axis passing through its centre. After sticking an object of same mass M at its rim the mass is raised to the position of maximum height. Now this unstable system is released. When the object passes the position right below the centre of angular velocity (in ms–2) of the system would be :
    Correct answer is '2.981'. Can you explain this answer?
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    A disc of massMand radiusR= 3mis suspended in a vertical plane by a ho...
    Using energy conservation P.E. = K.E.
    The correct answer is: 2.981
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    A disc of massMand radiusR= 3mis suspended in a vertical plane by a ho...
    Using energy conservation P.E. = K.E.
    The correct answer is: 2.981
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    A disc of massMand radiusR= 3mis suspended in a vertical plane by a horizontal axis passing through its centre. After sticking an object of same massMat its rim the mass is raised to the position of maximum height. Now this unstable system is released. When the object passes the position right below the centre of angular velocity (inms–2) of the system would be :Correct answer is '2.981'. Can you explain this answer?
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    A disc of massMand radiusR= 3mis suspended in a vertical plane by a horizontal axis passing through its centre. After sticking an object of same massMat its rim the mass is raised to the position of maximum height. Now this unstable system is released. When the object passes the position right below the centre of angular velocity (inms–2) of the system would be :Correct answer is '2.981'. Can you explain this answer? for Physics 2024 is part of Physics preparation. The Question and answers have been prepared according to the Physics exam syllabus. Information about A disc of massMand radiusR= 3mis suspended in a vertical plane by a horizontal axis passing through its centre. After sticking an object of same massMat its rim the mass is raised to the position of maximum height. Now this unstable system is released. When the object passes the position right below the centre of angular velocity (inms–2) of the system would be :Correct answer is '2.981'. Can you explain this answer? covers all topics & solutions for Physics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A disc of massMand radiusR= 3mis suspended in a vertical plane by a horizontal axis passing through its centre. After sticking an object of same massMat its rim the mass is raised to the position of maximum height. Now this unstable system is released. When the object passes the position right below the centre of angular velocity (inms–2) of the system would be :Correct answer is '2.981'. Can you explain this answer?.
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