What is displaced liquid mean in science terms?
Boyant force on a body will equal weight of displaced liquid or the body keeps sinking
As a body gets immersed in the liquid then equal volume of the liquid is displaced. The weight of this displaced liquid would offer an upward force tending to push the immersed body out of the liquid. This force is known to be BUOYANT FORCE.
The buoyant force depends on the volume of liquid displaced and the density of the liquid.
You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.
As a body gets immersed in a liquid then the loss of weight of the body is equal to the weight of the liquid displaced.
According to Archimedes' principle, buoyant force is equal to the weight of the displaced liquid.
Boyant force on a body will equal weight of displaced liquid or the body keeps sinking
As a body gets immersed in the liquid then equal volume of the liquid is displaced. The weight of this displaced liquid would offer an upward force tending to push the immersed body out of the liquid. This force is known to be BUOYANT FORCE.
The buoyant force is equal to the 'weight' of liquid that is displaced, which depends on the volume of liquid that is displaced, the density of the liquid, and gravitational acceleration, not the weight of the body.
When an object is immersed in a liquid, the liquid exerts a buoyant force on the object which is equal to the weight of the liquid displaced by the object. This statement is known as Archimedes' Principle. When a solid body is immersed wholly or partially in a liquid, then there is same apparent loss in its weight. This loss in weight is equal to the weight of the liquid displaced by the body. the bouyant force of an object equal to the weight of the fluid that the object displaced .
The buoyant force on an object in a liquid or gas has the same magnitude and the opposite direction of the weight of the liquid or gas displaced by the object. So basically, all you need to know is the weight of the displaced gas or liquid and the direction of gravity. The weight of the displaced gas or liquid can be derived from the density of the gas or liquid, the volume displaced, and the gravitational acceleration (weight = mass x gravity, and mass = density x volume). If the object is completely submerged, the volume of displaced liquid or gas is the same as the volume of the object minus the volume of the liquid or gas that enters the object (if the object is, for example, a sponge or a submarine with holes in it).
The buoyant force depends on the volume and density of the displaced liquid.
The buoyant force depends on the volume of liquid displaced and the density of the liquid.
yes
Recall Archimedes's principle. If the weight of the displaced liquid is more than the weight of the body put in the liquid then the body has to float. If weight of the body is more than that of the displaced liquid then body gets immersed.
Two ways to do this: 1) Floating the less dense object on the more dense liquid. To verify the Archimedes principle you need to show that the mass of the liquid displaced by the less dense object is equal to the mass of the less dense object. To do this you need to have a way to determine the mass of the displaced liquid. If the liquid is in a container filled to the brim, then when you place the less dense object in it, the displaced liquid will spill out over the edges of the container. If you can collect and weight that liquid, then you can compare its weight to the weight of the less dense object - they should match. Alternatively, you can find a way to measure the volume of the displaced liquid and calculate the mass from the volume and density of the displaced liquid. 2) Immerse the object completely in the liquid and measure the force required to keep it submerged. This one is more complicated and difficult to execute and measure. The force required to keep the less dense object submerged should be the difference between the weight of the object (when it is not in the liquid) and the weight of the displaced liquid.
Weigh the piece of maple (you've indicated it is about 10 grams) Completely submerge it in a liquid and measure the volume of liquid displaced Density = mass/(volume displaced) or about 10g/(volume displaced)