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Variation of Pressure in Liquids with depth

Pressure - Concepts
Floating Bodies
Pressure
Examples of Pressure
Archimedes Principle
Density And Relative Density
Conditions for Flotation in terms of density
Buoyancy or Up thrust
Variation of Pressure in Liquids with depth
Atmospheric Pressure
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Pressure in Air
Variation in Pressure with Area
Effects of Atmospheric Pressure
Pressure inside a Liquid and its Variation
Class - 9th Foundation NTSE Subjects
 
 
Concept Explanation
 

Variation of Pressure in Liquids with depth

Variation of Pressure in Liquids With Depth: When we swim in a river, we feel the water pressure acting against our eardrums. The deeper we swim, the greater the pressure. The cause of this pressure is the weight of the fluid, water  plus air directly above us. As we swim deeper, there is more water above us. Thereofore, there is more pressure. If we swim twice as deep, there is twice the weight of water above us, so the water  contribution to the pressure felt by us is doubled. The pressure due to a liquid also depends upon its density.

Mathematical expression for fluid pressure

Let us consider a liquid of density large rho in a beaker of base area A. If h be the height of the liquid column then

Volume of liquid in beaker, large V=Atimes h

Force (or thrust) acting at the bottom of the beaker is given by

 F = Weight of liquid = mg

    large =Vrho g;;;;(because m=Vrho ;and;V=Atimes h)

    large =(Atimes h)rho g=rho; g;h;A

large therefore   Pressure at the bottom of the beaker large P=frac{F}{A}=frac{rho ghA}{A}=rho gh,

Thus, we observe that pressure at a depth h due to a liquid column is directly proportional to

  • (i) the density large rho of the liquid.
  • (ii) the height  of the liquid column and
  • (iii) the acceleration due to gravity g

    • Q. Calculate the average density of the atmosphere, given that it extends to an altitude of 120 km. Compare this density with that of the air.

    Solution : If we solve     rho :=:frac{P}{hg}

    Here, we can take P = atmospheric pressure,  h (height) is known and g(accelaeration due to garvity) also known.

    Entering the value in the value of  rho ,

                                        rho:=;frac{1.01times10^5: N/m^2}{(120times10^3 m)(9.8 m/s^2)}rho:=;frac{1.01times10^5: N/m^2}{(120times10^3 m)(9.8 m/s^2)}:=;8.59times10^-^2:kg/m^3

    Q. Calculate the depth below the surface of water at which the pressure due to the weight of water equals 1.00 atm.

    Solution: As we know that   P:=:hrho g

                                                 h:=;frac{P}{rho g}

                                                h:=;frac{1.01times10^5:N/m^2}{(1.00times10^3:m)(9.8:m/s^2)}:=;10.3;m

    Sample Questions
    (More Questions for each concept available in Login)
    Question : 1

    The pressure due to a liquid depends upon its ________________.

    Right Option : C
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    Explanation
    Question : 2

    Which of the following are correct :

    (a) The deeper we swim, the greater the pressure.

    (b) The deeper we swim, the smaller the pressure.

    (c) The pressure due to a liquid depends upon its density.

    Right Option : C
    View Explanation
    Explanation
    Question : 3

    Which of the following are correct :

    (a)The pressure due to a liquid also depends its area.

    (b) The greater the height, the greater the pressure.

    (c) The greater the density, the greater the pressure.

    Right Option : B
    View Explanation
    Explanation
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