Liquid density affects the buoyance of the object placed in it, since the ability of the object to float depends on the density of the liquid, the denser the liquid the more likely the object will float and vice versa.
Archimedes’ principle states that a body immersed in a fluid experiences an upward force which is equal to the weight of the fluid displaced.
The upward force experienced by an object in a liquid is known as buoyant force.
For Example;
An object which is denser than the liquid [tex](\rho_o > \rho_l)[/tex] has a positive apparent weight and can sink in the liquid.
An object which is less dense than the liquid [tex](\rho_o < \rho_l)[/tex] has a negative apparent weight and rises in the liquid.
When the weight of the object is equal to the upthrust [tex](\rho_o = \rho_l)[/tex], the apparent weight will be zero and the object will float in the liquid. This is known as principle of floatation.
Thus, we can conclude that liquid density affects the buoyance of the object placed in it, since the ability of the object to float depends on the density of the liquid, the denser the liquid the more likely the object will float and vice versa.
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Answer:
Liquid density affects the buoyance of the object placed in it, since the ability of the object to float depends on the density of the liquid, the denser the liquid the more likely the object will float and vice versa.
Explanation:
