One end of a glass capillary tube with a radius `r=0.05cm` is immersed into water to a depth of `h=2cm`.Excess pressure required to blow an air bubble out of the lower end of the tube will be `(S.T` of water `=70"dyne"//cm`).Take `g=980cm//s^(2)`.

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

One end of a uniform glass capillary tube of radius r = 0.025 cm is immersed vertically in water to a depth h = 1 cm. The excess pressure in N/ m^2 required to blow an air bubble out of the tube is : [Surface tension of water = 7 xx 10^(-2) Nm, Density of water = 10^3 kg m^(-3) , Acceleration due to gravity = 10ms^(-2) ]

One end of a uniform glass capillary tube of radius r = 0.025 cm is immersed vertically in water to a depth h = 1cm. The excess pressure (in Nm^(-2) ) required to blow an air bubble out of the tube (Given , surface tension of water = 7 xx 10^(-2) Nm^(-1) , density of water = 10^(-3) k gm^(-3) and acceleration due to gravity = 10 ms^(-2) )

One end of uniform glass capillary tube of radius r = 0.05 cm is immersed vertically in water to a depth h = 2 cm . The excess pressure in N//m^(2) required to blow an air bubble out the tube ( surface tension pof water = 7 xx 10^(-2) N//m , density of water = 10^(3) kg/m^(3) and g = 10m//s^(2) ).

One end ofauniform glass capillary tube of radius r = 0.025 cm is immersed vertically in water to a depth h= 1 cm. The excess pressure in Nm required to blow an air bubble out of the tube (Surface tension of water = 7xx10^-2 N m^-1 Density of water 10^-3 kg m^-3 Acceleration due to gravity = 10 ms^-2 )