Calculating Buoyancy and Tension in a 2-Sphere System in an Ocean

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The discussion focuses on calculating the buoyancy and tension forces in a system of two connected spheres submerged in the ocean. The spheres have volumes of 0.1 m³, with masses of 200 kg and 15 kg, and the buoyancy force is calculated using the formula Buoyancy = Rho * g * V. Participants suggest analyzing each sphere independently to derive separate equations for the net forces acting on them. The heavier sphere's downward force is calculated, while the lighter sphere's behavior is considered based on its density and buoyancy effects. Understanding the interaction between the two spheres and the tension in the connecting wire is crucial for solving the problem.
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Homework Statement


Two spheres, with volume 0.1m^3, and masses M1=200kg and M2=15kg, are connected by a thin wire. They are dropped into the ocean (assume Rho=1000kg/m^3) and allowed to sink



Homework Equations





The Attempt at a Solution


I know buoyancy = Rho * g * V
Buoyancy + Lift-M2 + Fwire = Sink-M1.

I'm not sure how to get the rising/sinking forces of the two spheres, and how they interact with each other though.

Any help at all is appreciated, thanks in advance.
 
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Well initially, I think it would be best if we considered each sphere independently. So, can you write two separate equations for the net force acting on each sphere?
 
My best guess would be:

Heavy (case1). mg = downwards force - buoyancy. DownwardsF = 200g - 981N = 981N?

I'm not sure how the lighter sphere will act though. If it's specific density is lower than 1 then only part of the sphere will be submerged if it's acting seperately?
 
For the heavy one, I was thinking something more of the form (taking upwards as positive);

F_{net} = T + \rho\cdot V\cdot g - m_{1}g

Where T is the tension in the string. Does that make sense?
 

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