Buoyant Force acting on a sphere

AI Thread Summary
The discussion centers on calculating the buoyant force acting on a sphere that is partially submerged in water. The sphere has a radius of 10 cm and its lowest point is 5 cm below the water surface. Initial calculations yielded incorrect values, prompting participants to reassess their approach, including the volume of the submerged part of the sphere. A key realization involved the need to calculate the volume of a spherical cap rather than simply using half the sphere's volume. Ultimately, the correct method and understanding of the problem led to the conclusion that the buoyant force is likely around 6.42 N, aligning with the book's answer.
Carrie
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Homework Statement


A sphere of radius 10.0 cm floats in equilibrium partially submerged in water with its lowest point 5.00 cm below the water's surface.

(a) What is the buoyant force acting on the sphere?

Homework Equations


F = pvg

The Attempt at a Solution


F= 1000 * v * 9.8

V= 4/3*pi*(r)^3 and then I multiplied this by 1/2 because half of it is submerged.

F= 1000 * 1/2(4/3*pi*(.1)^3) * 9.8
F= 202 N, but the answer is 6.42 N, so that is very wrong.Thank you!
 
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Carrie said:

Homework Statement


A sphere of radius 10.0 cm floats in equilibrium partially submerged in water with its lowest point 5.00 cm below the water's surface.

(a) What is the buoyant force acting on the sphere?

Homework Equations


F = pvg

The Attempt at a Solution


F= 1000 * v * 9.8

V= 4/3*pi*(r)^3 and then I multiplied this by 1/2 because half of it is submerged.

F= 1000 * 1/2(4/3*pi*(.1)^3) * 9.8
F= 202 N, but the answer is 6.42 N, so that is very wrong.Thank you!
Check your arithmetic. I don't get your answer or the book's answer, either.
 
SteamKing said:
Check your arithmetic. I don't get your answer or the book's answer, either.
I think I might have messed up putting it in my calculator, because now I'm getting 20.5 N.
 
The sphere's radius is 10 cm. The lowest point is 5 cm below the water's surface. Sketch it.
 
Carrie said:
I think I might have messed up putting it in my calculator, because now I'm getting 20.5 N.
Closer, but still not what I calculated.
 
Okay, I sketched it and now I'm wondering if I use half that radius of 10 cm because it's half submerged. So:

F= 1000 * 1/2(4/3*pi*(.05)^3) * 9.8 = 5.13 N. I'm not sure if I'm going off in the wrong direction now.
 
Carrie said:
Okay, I sketched it and now I'm wondering if I use half that radius of 10 cm because it's half submerged. So:

F= 1000 * 1/2(4/3*pi*(.05)^3) * 9.8 = 5.13 N. I'm not sure if I'm going off in the wrong direction now.
No, the sketch is very helpful here. You want to find the volume of part of a sphere, what is called a spherical cap, like this (the blue region would be submerged):

15e369cd-befe-4b1c-bc5e-269ae7a025a7.png
https://en.wikipedia.org/wiki/Spherical_cap

I think I misread the problem like you did in my initial attempt at calculation, so the book answer could be correct.
 
Oh, that makes sense! Thank you for your help!
 

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