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In the figure shown a lift goes downwards with a constant retardation. An observer in the lift observes a conical pendulum in the lift, revolving in a horizontal circle with time period 2 seconds. The distance between the centre of the circle and the point of suspension is 2.0 m. The retardation of the lift in m/s2 is :
    Correct answer is '10'. Can you explain this answer?
    Verified Answer
    In the figure shown a lift goes downwards with a constant retardation....

    geff = g + a
    Put T = 2
    ⇒ a = 10 m/s2
    The correct answer is: 10
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    Most Upvoted Answer
    In the figure shown a lift goes downwards with a constant retardation....

    geff = g + a
    Put T = 2
    ⇒ a = 10 m/s2
    The correct answer is: 10
    Free Test
    Community Answer
    In the figure shown a lift goes downwards with a constant retardation....

    geff = g + a
    Put T = 2
    ⇒ a = 10 m/s2
    The correct answer is: 10
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    In the figure shown a lift goes downwards with a constant retardation. An observer in the lift observes a conical pendulum in the lift, revolving in a horizontal circle with time period 2 seconds. The distance between the centre of the circle and the point of suspension is 2.0m. The retardation of the lift inm/s2is :Correct answer is '10'. Can you explain this answer?
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    In the figure shown a lift goes downwards with a constant retardation. An observer in the lift observes a conical pendulum in the lift, revolving in a horizontal circle with time period 2 seconds. The distance between the centre of the circle and the point of suspension is 2.0m. The retardation of the lift inm/s2is :Correct answer is '10'. 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 figure shown a lift goes downwards with a constant retardation. An observer in the lift observes a conical pendulum in the lift, revolving in a horizontal circle with time period 2 seconds. The distance between the centre of the circle and the point of suspension is 2.0m. The retardation of the lift inm/s2is :Correct answer is '10'. 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 figure shown a lift goes downwards with a constant retardation. An observer in the lift observes a conical pendulum in the lift, revolving in a horizontal circle with time period 2 seconds. The distance between the centre of the circle and the point of suspension is 2.0m. The retardation of the lift inm/s2is :Correct answer is '10'. Can you explain this answer?.
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