Solve PVg Volume-Weight Problem: 28 N Required

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Homework Help Overview

The discussion revolves around a physics problem involving buoyancy and forces acting on a floating bathball in water. The original poster presents a scenario where a bathball with a specific volume is partially submerged, and they seek to determine the power required to submerge it completely.

Discussion Character

  • Exploratory, Assumption checking, Problem interpretation

Approaches and Questions Raised

  • The original poster attempts to calculate the mass of the bathball and the power needed to submerge it, but expresses confusion about their calculations and the expected result. Other participants question the reasoning behind the formulas used and suggest considering the forces acting on the bathball.

Discussion Status

Participants are exploring different aspects of the problem, including the forces at play and the relationships between them. Some guidance has been offered regarding the equilibrium of forces, but there is no consensus on how to proceed with the calculations.

Contextual Notes

The original poster indicates a lack of understanding of the forces involved and requests a formula to assist with their calculations. There is also a mention of the expected force being significantly different from their initial calculation.

Izekid
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I have a problem that I can't solve,

A bathball with the volume 3,0dm^3 is floating on water and has 6,0% of it's volume down in the water.

a) Count the bathball's mass , Easy : 0,06*3,0= 1,8hg = 0,18 kg

Now comes the real problem

b) how much power do you need to use to force the whole bathball down under water?

Well for this I though i'd use p*v*g /p (where p is water density)
Water density 1,0 * 10^3 = 1000*0,3m^3*9,82 = 2946 / 1000 = 2,946 N

Which totally wrong it should be 28 N how do I solve this?
 
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Draw a diagram. You should have three forces.

"p*v*g /p"
How did you get this?
 
Eh?

Don't know what you're suggesting please understand I'm no science freak :cry: :cry: :bugeye: :smile: :zzz:

Yeah I have 3 forces gravity is one my power pressing the bathball down is one and the will to go up is the third. But I do not not the force pressing the item down!?
And how do I get to know that ?
Give me a formula or something?
 
There isn't much help I can give without solving the problem. Here goes, though:

Well, the forces should equal zero (for the minimal force).
So:
[tex]mg + F = \rho _{water} Vg[/tex]
 

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