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A frictionless circular piston of area 10-2 m and mass 100 kg sinks into a cylindrical container of the same area filled with water of density 3 1000 kg/m as shown in the figure. The container has a hole of area 10-3 m2 at the bottom that is open to the atmosphere. Assuming there is no leakage from the edges of the piston and considering water to be incompressible, the magnitude of the piston velocity (in m/s) at the instant shown is __________ (correct to two decimal places).
    Correct answer is '1.456'. Can you explain this answer?
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    A frictionless circular piston of area 10-2 mand mass 100 kg sinks int...
    Total gauge pressure at top   
    Total gauge pressure at bottom = 0
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    A frictionless circular piston of area 10-2 mand mass 100 kg sinks int...
    Total gauge pressure at top   
    Total gauge pressure at bottom = 0
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    A frictionless circular piston of area 10-2 mand mass 100 kg sinks int...
    Total gauge pressure at top   
    Total gauge pressure at bottom = 0
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    A frictionless circular piston of area 10-2 mand mass 100 kg sinks into a cylindrical container of the same area filled with water of density 3 1000 kg/m as shown in the figure. The container has a hole of area 10-3 m2at the bottom that is open to the atmosphere. Assuming there is no leakage from the edges of the piston and considering water to be incompressible, the magnitude of the piston velocity (in m/s) at the instant shown is __________ (correct to two decimal places).Correct answer is '1.456'. Can you explain this answer?
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    A frictionless circular piston of area 10-2 mand mass 100 kg sinks into a cylindrical container of the same area filled with water of density 3 1000 kg/m as shown in the figure. The container has a hole of area 10-3 m2at the bottom that is open to the atmosphere. Assuming there is no leakage from the edges of the piston and considering water to be incompressible, the magnitude of the piston velocity (in m/s) at the instant shown is __________ (correct to two decimal places).Correct answer is '1.456'. Can you explain this answer? for Mechanical Engineering 2024 is part of Mechanical Engineering preparation. The Question and answers have been prepared according to the Mechanical Engineering exam syllabus. Information about A frictionless circular piston of area 10-2 mand mass 100 kg sinks into a cylindrical container of the same area filled with water of density 3 1000 kg/m as shown in the figure. The container has a hole of area 10-3 m2at the bottom that is open to the atmosphere. Assuming there is no leakage from the edges of the piston and considering water to be incompressible, the magnitude of the piston velocity (in m/s) at the instant shown is __________ (correct to two decimal places).Correct answer is '1.456'. Can you explain this answer? covers all topics & solutions for Mechanical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A frictionless circular piston of area 10-2 mand mass 100 kg sinks into a cylindrical container of the same area filled with water of density 3 1000 kg/m as shown in the figure. The container has a hole of area 10-3 m2at the bottom that is open to the atmosphere. Assuming there is no leakage from the edges of the piston and considering water to be incompressible, the magnitude of the piston velocity (in m/s) at the instant shown is __________ (correct to two decimal places).Correct answer is '1.456'. Can you explain this answer?.
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