Ppt Chapter 14 Powerpoint Presentation Free Download Id 5593604 Archimedes' principle allows the buoyancy of any floating object partially or fully immersed in a fluid to be calculated. the downward force on the object is simply its weight. the upward, or buoyant, force on the object is that stated by archimedes' principle above. This weight is supported by the surrounding fluid, so the buoyant force must equal w fl, the weight of the fluid displaced by the object. archimedes’ principle. the buoyant force on an object equals the weight of the fluid it displaces. in equation form, archimedes’ principle is. fb = wfl, (14.6.1) (14.6.1) f b = w f l,.
юааarchimedesюабтащ юааprincipleюаб Description Facts Britannica Archimedes’ principle is very useful for calculating the volume of an object that does not have a regular shape. the oddly shaped object can be submerged, and the volume of the fluid displaced is equal to the volume of the object. it can also be used in calculating the of an object. for example, for an object denser than and then weighed when. Archimedes’ principle. according to this principle the buoyant force on an object equals the weight of the fluid it displaces. in equation form, archimedes’ principle is. fb = wfl, (6.6.2) (6.6.2) f b = w f l, where fb f b is the buoyant force and wfl w f l is the weight of the fluid displaced by the object. humm …. But the archimedes principle states that the buoyant force is the weight of the fluid displaced. so, for a floating object on a liquid, the weight of the displaced liquid is the weight of the object. thus, only in the special case of floating does the buoyant force acting on an object equal the object’s weight. This principle is named after the greek mathematician and inventor archimedes (ca. 287–212 bce), who stated this principle long before concepts of force were well established. figure 14.21 (a) an object submerged in a fluid experiences a buoyant force f b .
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