a solid weighs 200N in air and 135 N in water . Find the relative density of the solid
Answers
Explanation:
ANSWER
The solid apparently weighs less in water when compared to air because of the upward buoyant force acting on it when it is submerged in water.
According to Archimedes principle, the buoyant force acting on an object is equal to the weight of the fluid displaced by it.
Therefore, the apparent decrease in the weight of an object is equal to the weight of the fluid displaced by it.
Weight of displaced water = Apparent decrease in weight = 120−105=15 gf
Mass of displaced water = 15g
Volume of solid = volume of water displaced =
density
mass
=
1g/cm
3
15g
=15cm
3
Actual weight of solid = weight of solid in air =120gf (since buoyant force due to air is negligible)
Mass of solid = 120g
Density of solid =
Volume
Mass
=
15
120
=8g/cm
3
Relative density of solid =
Density
water
Density
solid
=
1g/cm
3
8g/cm
3
=8
Answer:
here is your answer....
Explanation:
it's relative density is
\frac{4}{?3}
?3
4