Fluid Mechanics of helium-filled balloon

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Homework Help Overview

The discussion revolves around a fluid mechanics problem involving a helium-filled balloon, a uniform string, and the concept of buoyancy. The original poster seeks to determine the length of string lifted by the balloon when it reaches equilibrium after being released.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the relationship between the weight of the balloon, the string, and the buoyant force acting on the helium. There are attempts to formulate the problem using mass and weight calculations, as well as questions regarding the appropriate formula for buoyancy and the conditions for equilibrium.

Discussion Status

Some participants have provided guidance on the forces involved and how they relate to buoyancy. There is ongoing exploration of the necessary calculations and concepts, with no explicit consensus reached yet.

Contextual Notes

Participants are considering the mass of the string and balloon, the volume of helium, and the buoyant force, while also questioning the assumptions about equilibrium and the relevant formulas needed for the calculations.

vmind
Hi,

I would really appreciate help in solving the following problem.

A helium-filled balloon is tied to a 2.00 m long, 0.050 kg uniform

string. The balloon is spherical with a radius of 0.400 m. When

released, the balloon lifts a length h of string and then remains in

equilibrium. The envelope of the balloon has a mass of 0.250 kg.

What is the value of h?
 
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Since 2 meters of the uniform string as mass 0.05 kg, h meters of the string will have mass (h/2)(0.05)= 0.025h kg and so weight 0.025 gh= 0.245h Newtons. The balloon itself has mass 0.25 kg and so
weight 0.25*g= 2.45 Newtons so the balloon is lifting 2.45+ 0.245h Newtons. You will need to use the bouyancy of helium (the balloon contains (4/3)(pi)(0.43= 0.268 m3 of helium) to determine how much weight the balloon can lift and so what h is.
 
Hello again,

Is the following formula the one I should use to find the buyoancy of helium?

B_helium = p_helium * V_helium * g

Also will the combined weight of string and balloon equal the buyoancy of helium at height h?

I really appreciate your help.
 
Your formula will give you the weight of the helium.

For equilibrium, the forces must balance. The forces acting down are the weights of the balloon envelope, the helium, and the length (h) of string. These must be balanced by the buoyant force acting upward, which equals the weight of the displaced air.
 

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