A body floats in water with 40% of its volume outside water. When the same body floats in oil, 60% of its volume remains outside oil. The relative density of the oil is
0.9
1.2
1.5
1.8
A uniform long tube is bent into a circle of radius R and it lies in vertical plane. Two liquids of same volume but densities ρ and δ fill half the tube. The angle θ is
Two solid spheres of same metal but of mass M and 8M fall simultaneously on a viscous liquid and their terminal velocities are v and nv, then value of n is
16
8
4
2
A stone of relative density K is released from rest on the surface ofa lake. If viscous effects are ignored, the stone sinks in water with an acceleration of
g (1 − K)
g (1 + K)
C.
The net force acting on the stone in a downward direction would be equal to F = Vσg − Vρg, where m is the mass of the stone, the force acting downwards would be equal to Vσg due to its weight and the force acting upwards would be equal to Vρg due to the buoyant force. Hence, we get
An object weights m1 in a liquid of density d1 and that in liquid of density d2 is m2. The density d of the object is
A body floats in water with 40% of its volume outside water. When the same body floats in an oil. 60% of its volume remains outside oil. The relative density of oil is
0.9
1.0
1.2
1.5
Two soap bubbles of radii x and y coalesce to constitute a bubble of radius z. Then z is equal to
x + y
Air inside a closed container is saturated with water vapour. The air pressure is p and the saturated vapour pressure of water is . If the mixture is compressed to one-half of its volume by maintammg temperature constant, the pressure becomes
Water is flowing through a very narrow tube. The velocity of water below which the flow remains a streamline flow is known as
relative velocity
terminal velocity
critical velocity
particle velocity