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In the system shown in figure the friction coefficient between ground and bigger block is μ. There is no friction between both the blocks. The string connecting both the block is light; all three pulleys are light and frictionless. Then the minimum limiting value of μ so that the system remains in equilibrium is :
    Correct answer is '0.667'. Can you explain this answer?
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    In the system shown in figure the friction coefficient between ground ...
    In equilibrium



    The correct answer is: 0.667
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    In the system shown in figure the friction coefficient between ground ...
    In equilibrium



    The correct answer is: 0.667
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    In the system shown in figure the friction coefficient between ground ...
    0.667.
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    In the system shown in figure the friction coefficient between ground and bigger block isμ. There is no friction between both the blocks. The string connecting both the block is light; all three pulleys are light and frictionless. Then the minimum limiting value ofμso that the system remains in equilibrium is :Correct answer is '0.667'. Can you explain this answer?
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    In the system shown in figure the friction coefficient between ground and bigger block isμ. There is no friction between both the blocks. The string connecting both the block is light; all three pulleys are light and frictionless. Then the minimum limiting value ofμso that the system remains in equilibrium is :Correct answer is '0.667'. 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 In the system shown in figure the friction coefficient between ground and bigger block isμ. There is no friction between both the blocks. The string connecting both the block is light; all three pulleys are light and frictionless. Then the minimum limiting value ofμso that the system remains in equilibrium is :Correct answer is '0.667'. Can you explain this answer? covers all topics & solutions for Physics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for In the system shown in figure the friction coefficient between ground and bigger block isμ. There is no friction between both the blocks. The string connecting both the block is light; all three pulleys are light and frictionless. Then the minimum limiting value ofμso that the system remains in equilibrium is :Correct answer is '0.667'. Can you explain this answer?.
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