A tube of length is filled completely with an ideal liquid of mass , and closed at both ends. The tube is rotated uniformly in horizontal plane about one of its ends. If the force exerted by the liquid at the other end is and the angular velocity of the tube is , then the value of is _____ in SI units.
JEE Physics 2025 Question with Solution
Answer
Correct answer:1
Step-by-step solution
Standard Method
Given: Tube length is , total mass of liquid is , and angular velocity is .
Find: The value of if the force at the other end is written in the form proportional to .
Take a small element of liquid of length at a distance from the axis of rotation.
Linear mass density is
Since ,
Mass of the small element is
The required centripetal force for this element is
So,
Integrating from to ,
Hence, in the relation , we get
Therefore, the value of is .
Using force balance along the rotating liquid column
Given: A liquid of total mass fills a tube of length rotating with angular velocity about one end.
Find: The constant associated with the end force.
Each liquid element at distance needs centripetal acceleration . Therefore the net inward force needed on an element is
Using uniform linear mass density,
Hence,
The total force transmitted to the closed end is the sum over the whole liquid column:
So the coefficient is
The second provided approach concludes , but that is dimensionally inconsistent for a numerical-value answer and contradicts the direct integration above. Therefore the defensible extracted answer is .
Common mistakes
Treating the whole liquid mass as concentrated at the far end is incorrect because different elements are at different radii and experience different centripetal requirements. Instead, integrate over the tube length.
Using a constant centripetal force expression with radius for every element is wrong because the radius varies from to . Use the position-dependent term inside the integral.
Confusing the coefficient of with the force itself leads to answers like for . The question asks for a pure numerical coefficient, so compare the final force with .
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