Advertisements
Advertisements
प्रश्न
Deduce an expression for the pressure at depth inside a liquid.
Advertisements
उत्तर
Consider a vessel containing a liquid of density. Let the liquid be stationary. In order to calculate pressure at a depth, consider a horizontal circular surface PQ of area A at a depth h below the free surface XY of the liquid. The pressure on the surface PQ will be due to the thrust of the liquid contained in cylinder PQRS of height h with PQ as its base and top face RS lying on the frees surface XY of the liquid.
Total thrust exerted on the surface PQ
= Weight of the liquid column PQRS
= Volume of liquid column PQRS x density x g
= (Area of base PQ x height) x density x g
= (A x h) x ρ x g
This thrust is exerted on the surface PQ of area A. Therefore, pressure is given as shown below.
P = Thrust on surface / Area of surface
P = Ahρg / A = h ρ g
Thus, Pressure = depth x density of liquid x acceleration due to gravity
APPEARS IN
संबंधित प्रश्न
Name the force which makes heavy objects appear light when immersed in a liquid.
What happens to the buoyant force as more and more volume of a solid object is immersed in a liquid ? When does the buoyant force become maximum ?
What physical quantity is measured in bar?
The pressure P1 at the top of a dam and P2 at a depth h form the top inside water (density p) are related as :
(i) The diameter of neck and bottom of a bottle are 2 cm and 10 cm, respectively. The bottle is completely filled with oil. If the cork in the neck is pressed in with a force of 1.2 kgf, what force is exerted on the bottom of the bottle?
(ii) Name the law/principle you have used to find the force in part (a).
A small block of wood is completely immersed in (i) water, (ii) glycerine and then released. In each case, What do you observe? Explain the difference in your observation in the two cases.
Select the correct option:
When an object sinks in a liquid, its:
State whether true or false. If false, correct the statement.
The weight of fluid displaced determines the buoyant force on an object.
In a fluid, buoyant force exists because the pressure at the ______ of an object is greater than the pressure at the top.
Complete the analogy.
Downward force : Weight :: Upward force offered by liquid : _____.
