Water in a clean large cuboid aquarium forms a meniscus, as shown in the figure. The difference in height between the centre and the edge of the meniscus is h. Surface tension of water is `S = 0.073 Nm^(-1)`. Atmospheric pressure is `P_0=10^5 N//m^2` . Angle of contact between the water and aquarium wall is zero.

Answer the following 3 question above illustrated situation.

Value of height h is

Water in a clean large cuboid aquarium forms a meniscus, as shown in the figure. The difference in height between the centre and the edge of the meniscus is h. Surface tension of water is S = 0.073 Nm^(-1) . Atmospheric pressure is P_0=10^5 N//m^2 . Angle of contact between the water and aquarium wall is zero. Answer the following 3 question above illustrated situation. For an aquarium with side walls of length l ,horizontal force on the volume of water enclosed by the dashed line and free surface, by one aquarium wall is

Water in a clean large cuboid aquarium forms a meniscus, as shown in the figure. The difference in height between the centre and the edge of the meniscus is h. Surface tension of water is S = 0.073 Nm^(-1) . Atmospheric pressure is P_0=10^5 N//m^2 . Angle of contact between the water and aquarium wall is zero. Answer the following 3 question above illustrated situation. For an aquarium with side walls of length l ,horizontal force on the volume of water enclosed by the dashed line and free surface, by one aquarium wall is

Water in a clean large cuboid aquarium forms a meniscus, as shown in the figure. The difference in height between the centre and the edge of the meniscus is h. Surface tension of water is S = 0.073 Nm^(-1) . Atmospheric pressure is P_0=10^5 N//m^2 . Angle of contact between the water and aquarium wall is zero. Answer the following 3 question above illustrated situation. Pressure at point A is

Water in a clean large cuboid aquarium forms a meniscus, as shown in the figure. The difference in height between the centre and the edge of the meniscus is h. Surface tension of water is S = 0.073 Nm^(-1) . Atmospheric pressure is P_0=10^5 N//m^2 . Angle of contact between the water and aquarium wall is zero. Answer the following 3 question above illustrated situation. Pressure at point A is

What is the difference in pressure between the inside and outside of a spherical drop of radius 2mm Surface tension of water =70 xx 10^(-3) "Nm"^(-1).

Find the excess pressure inside a liquid drop of radius 2 cm, if the surface tension of water is 0.073 N m^(-1)

Find the excess pressure inside a liquid drop of radius 2 cm, if the surface tension of water is 0.073 N m^(-1)

Surface tension of water is 0.072 Nm^(-1) . The excess pressure inside a water drop of diameter 12 m is :-

Surface tension of water is 0.072 Nm^(-1) . The excess pressure inside a water drop of diameter 1.2 mm is:

The pressure in air bubble just below the water surface is (Surface tension of water is 72 dyne cm^(-3) and atmospheric pressure 1 xx 10^5 Nm^(-2) ,Radius of bubble = 0.1mm)