![]() ![]() ![]() To objects in fluids (such as water or even air!), two main forces applied upward buoyant force and downward gravitational force. Competing between these two forces determines whether an object sinks or floats in a fluid. Here, we are going to learn about this topic with some basic and important solved examples. This fundamental principle which was discovered by a Greek mathematician in the sixth century B.C. states and defines as below:Īny object wholly or partially submerged in a fluid is buoyed up by a force with a magnitude of the weight of the displaced fluid by the object. When you lift a heavy object in a swimming pool, in fact, you are experiencing Archimedes' principle as water provides partial support for you to overcome the weight of an object placed in it. Or using Archimedes' principle, we can explain why hot air balloons ascend in the air. When a body is placed into a fluid, an upward force is always exerted on it by surrounding fluid which partially or wholly reduces the impact of downward weight force. ![]() This upward force, called buoyant force, was explained with solved examples in another tutorial. Suppose two bodies of the same size and shape and place them at some depth in a fluid. One is filled with an unknown substance of mass $m$ and the other is filled with the fluid surrounding it that has a mass of $m'$.īecause both objects are at the same depth, the buoyant forces act on them are the same. These buoyant forces must be balanced with the objects' weight so that the objects remain in the same depth (or to maintain their equilibrium).įor the object of mass $m$, Newton's second law of motions states, $F_B=mg$, and similarly for the object of mass $m'$, we have $F_B=m'g$. Therefore, \ As you can see it is simpler, instead of balancing the buoyant force with an unknown weight $mg$, we can do it by a known weight $m'g$ which is the weight of the body of fluid whose volume equals to the volume of the original object. Method 2: The physical cause of the upward force exerted by fluids on objects into it, is the pressure difference between the upper and lower sides of an object due to being at different depths of the fluid. ![]()
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