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A cube of a material with a density of 4230 kg/m^3 has a volume of 0.00100 m^3 and a weight of 41.5 N. When the cube is placed in water with a density of 1000. kg/m^3, what buoyant force acts on the material?

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Answer:

The buoyant force is 9.8 N.

Explanation:

The buoyant force acting on the material is called upthrust, and can be determined as;

Upthrust = density of liquid x volume of object x gravitational force

So,

density = [tex]\frac{mass}{volume}[/tex]

⇒ mass = density x volume

             = 4230 x 0.001

             = 4.23

mass of the material = 4.23 kg

But,

weight = mass x gravitational force

weight = 41.5 N, and mass = 4.23 kg, then;

41.5 = 4.23 x g

g = [tex]\frac{41.5}{4.23}[/tex]

  = 9.811

g = 9.8 m/[tex]s^{2}[/tex]

Upthrust = 1000 x 0.001 x 9.81

              = 9.81 N

The buoyant force is 9.8 N.

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