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. 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. 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

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)