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Experimental components Plastic graduated cylinder, weights, spring scale, thin wire Experimental process (1) As shown in Figure A, use a spring scale to measure the weight G0 of the small graduated cylinder. (2) As shown in Figure B, connect the weights with a thin wire and use a spring scale to measure the weight G1 of the weights. (3) As shown in Figure C, fill the graduated cylinder with drainage holes with water so that the water level is just not overflowing, and gradually immerse the weights slowly into the water, catch the overflowing water with a small graduated cylinder, and read the value of the spring scale at this time F1. (4) Calculate the buoyancy F2 = G1 - F1 when the weights are completely immersed in water. (5) As shown in Figure D, use a spring scale to measure the total weight G3 of the overflowing water and the small graduated cylinder. (6) From this, we can calculate the weight G4 = G3 - G0 of the overflowing water. (7) Compare the values of G4 and F2. Experimental phenomena Through experimental and calculated results, we can see that the value of G4 is equal to the value of F2. Experimental conclusion The buoyancy force on an object immersed in a liquid is equal to the weight of the liquid it displaces. This is Archimedes’ principle. It is expressed by the formula F=ρgv.

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Physics Lab Kits - physics experiment to investigate the relationship between buoyancy and the weight of displaced fluid
Physics Lab Kits - physics experiment to investigate the relationship between buoyancy and the weight of displaced fluid
Physics Lab Kits - physics experiment to investigate the relationship between buoyancy and the weight of displaced fluid

Physics Lab Kits - physics experiment to investigate the relationship between buoyancy and the weight of displaced fluid

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PhysicsMechanics

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Experimental components

Plastic graduated cylinder, weights, spring scale, thin wire
Experimental process

(1) As shown in Figure A, use a spring scale to measure the weight G0 of the small graduated cylinder.

(2) As shown in Figure B, connect the weights with a thin wire and use a spring scale to measure the weight G1 of the weights.

(3) As shown in Figure C, fill the graduated cylinder with drainage holes with water so that the water level is just not overflowing, and gradually immerse the weights slowly into the water, catch the overflowing water with a small graduated cylinder, and read the value of the spring scale at this time F1.

(4) Calculate the buoyancy F2 = G1 - F1 when the weights are completely immersed in water.

(5) As shown in Figure D, use a spring scale to measure the total weight G3 of the overflowing water and the small graduated cylinder.

(6) From this, we can calculate the weight G4 = G3 - G0 of the overflowing water.

(7) Compare the values of G4 and F2.
Experimental phenomena Through experimental and calculated results, we can see that the value of G4 is equal to the value of F2.
Experimental conclusion The buoyancy force on an object immersed in a liquid is equal to the weight of the liquid it displaces. This is Archimedes’ principle. It is expressed by the formula F=ρgv.
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Physics Lab Kits - physics experiment to investigate the relationship between buoyancy and the weight of displaced fluid

$16.00