A cube, 0.8 cm on a side, and a mass of 100 g is completely submerged under water (pwater = 1.0 g/cm3=1000 kg/m3 ) and released.a) What is the density of the cube in g/cm3?b) Draw a free-body diagram for the cube.c) What is the buoyancy force on the cube?d) What is the acceleration of the block after being released under water? (include direction of acceleration inyour answer)

Name: A cube, 0.8 cm on a side, and a mass of 100 g is completely submerged
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Description: A cube, 0.8 cm on a side, and a mass of 100 g is completely submerged under water (pwater = 1.0 g/cm3=1000 kg/m3 ) and released.a) What is the density of the cube in g/cm3?b) Draw a free-body diagram for the cube.c) What is the buoyancy force on the

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Inquiry into Physics

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Author:Ostdiek

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Chapter4: Physics Of Matter

Section: Chapter Questions

Problem 26P: . A juniper-wood plank measuring 0.25 ft by 1 ft by 16 ft is totally submerged in water, (a) What is...

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A cube, 0.8 cm on a side, and a mass of 100 g is completely submerged under water (pwater = 1.0 g/cm3=
1000 kg/m3 ) and released.
a) What is the density of the cube in g/cm3?
b) Draw a free-body diagram for the cube.
c) What is the buoyancy force on the cube?
d) What is the acceleration of the block after being released under water? (include direction of acceleration in
your answer)

Expert Solution

Step 1

Given data

*The mass of the cube is m = 100 g = 0.100 kg

*The side of the cube is a = 0.8 cm = 0.8 × 10^-2 m

*The given density of water is $ρ_{w a t e r} = 1.0 g / {cm}^{3}$ = 1000 kg/m³

Step 2

(a)

The expression for the density of the cube is given as,

$\begin{array}{rcl} D & = & \frac{m}{V} \\ = & \frac{m}{a^{3}} \end{array}$

*Here V = a³ is the volume of the cube

Substitute the values in the above expression as

$\begin{array}{rcl} D & = & \frac{100 g}{{(0.8 cm)}^{3}} \\ = & 195.31 g / {cm}^{3} \end{array}$

Thus the density of the cube is D = 195.31 g/cm³

Step 3

(b)

The free-body diagram of the cube is given below

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