A ball of mass mb and volume V is lowered on a string into a fluid...
A ball of mass mb and volume V is lowered on a string into a fluid of density ρf. (Figure 1) Assume that the object would sink to the bottom if it were not supported by the string. What is the tension T in the string when the ball is fully submerged but not touching the bottom, as shown in the figure?
What is the tension T in the string when the ball is fully submerged but not touching the bottom
Homework Answers
Buoyancy and tension force will act upward and gravitational
force will act downward direction. Ball will be in equilibrium
position at this point hence balance all the forces at this
point.
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A ball of mass mb and volume V is lowered on a string into a
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Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
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The figure below shows a ball of mass m=1.9 kg which is
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Archimedes Principle - Upward Tension Additional Force As shown in the above figure, a solid object has a density of 1200 kg/m3 and a volume of 7.80x10^-5 m3. It is lowered on a string into water and completely submerged without touching the container. The density of water is 1000 kg/m3. Keep 3 decimal places in all answers. (Don't use scientific notations.) Without the string, would the solid object sink in water or float in water?...
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If the velocity of the ball at point A is v0=8.6 m/s,
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If the velocity of the ball at point A is v0=8.6 m/s, what is the
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