Physics

Describe an experiment to verify Archimedes' principle.

Fluids Upthrust

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Answer

Experiment —

Take a solid (say a metallic piece). Suspend a solid by a thin thread from the hook of a spring balance. Note it's weight. Now take a eureka can and fill it with water to it's spout. Arrange a measuring cylinder below the spout of the eureka can.

Now, immerse the solid gently into water of the eureka can. The water displaced by it gets collected in the measuring cylinder, as shown in figure. When water stops dripping through the spout, note the weight of the solid and the volume of water collected in the measuring cylinder.

As shown in figure, the solid weighs 300 gf in air and 200 gf when it is completely immersed in water. The volume of water collected in the ,measuring cylinder is 100 ml i.e., 100 cm³.

Therefore, loss in weight = 300gf - 200gf = 100gf [Equation 1]

Volume of water displaced = Volume of solid = 100 cm³

Since, density of water = 1 g cm^-3

Therefore, weight of water displaced = 100 gf [Equation 2]

From eqns. (i) and (ii)

Weight of water displaced = Upthrust or loss in weight.

Thus, the weight of water displaced by a solid is equal to the loss in weight of the solid. This verifies Archimedes' principle.

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Physics

Describe an experiment to verify Archimedes' principle.

Fluids Upthrust

Answer

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Physics

Describe an experiment to verify Archimedes' principle.

Fluids Upthrust

Answer

Related Questions

A body held completely immersed inside a liquid experiences two forces (i) F1, the force due to gravity and (ii) F2, the buoyant force. Draw a diagram showing the direction of these forces acting on the body and state the conditions when the body will float or sink.

Prove that the loss in weight of a body when immersed wholly or partially in a liquid is equal to the buoyant force (or upthrust) and this loss is because of the difference in pressure exerted by liquid on the upper and lower surfaces of the submerged part of the body.

A body of volume 100 cm3 weighs 5 kgf in air. It is completely immersed in a liquid of density 1.8 x 103 kg m-3. Find (i) the upthrust due to liquid and (ii) the weight of the body in liquid.

A body weighs 450 gf in air and 310 gf when completely immersed in water.Find —(i) the volume of the body,(ii) the loss in weight of the body, and(iii) the upthrust on the body.State the assumption made in part (i).

A body held completely immersed inside a liquid experiences two forces (i) F₁, the force due to gravity and (ii) F₂, the buoyant force. Draw a diagram showing the direction of these forces acting on the body and state the conditions when the body will float or sink.

A body of volume 100 cm³ weighs 5 kgf in air. It is completely immersed in a liquid of density 1.8 x 10³ kg m^-3. Find (i) the upthrust due to liquid and (ii) the weight of the body in liquid.

A body weighs 450 gf in air and 310 gf when completely immersed in water.
Find —
(i) the volume of the body,
(ii) the loss in weight of the body, and
(iii) the upthrust on the body.
State the assumption made in part (i).