Nature of meniscus for liquid of `0^(@)` angle of contact

Nature of meniscus for liquid having angle of contact as 0^@ is

Shape of menuscus of a liquid of zero angle of contact is

Molecular forces exist between the molecules of a liquid in a container. The molecules on the surface have unequal force leading to a tension on the surface. If this is not compensated by a force, the equilibrium of the liquid will be a difficult task. This leads to an excess pressure on the surface. The nature of the meniscus can inform us of the direction of the excess pressure. The angle of contact of the liquid decided by the forces between the molecules, air and container can make the angle of contact. The direction of the excess pressure in the meniscus of a liquid of angle of contact 2pi//3 is

As a result of addition of detergent to a liquid the angle of contact .

When a cylindrical tube is dipped vertically into a liquid the angle of contact is 140^(@) . When the tube is dipped with an inclination of 40^(@) the angle of contact is

When a cylindircal tube is dipped vertically into a liquid the angle of contact is 80^(@) . When the tube is dipped with an inclination of 40^(@) the angle of contact is :

The lower end of a capillary tube touches a liquid whose angle of contact is 110^(@) , the liquid .

If the lower end of ta capillary tube touches a liquid whose angle of contact is 90^@ , then the liquid

A capillary tube A is dipped in water. Another identical tube B is dipped in detergent-water solution. Which of the following shows the correct nature of meniscus of the liquid column in the two capillary tubes?

A capillary tube of radius r is placed in a liquid I the angle of contact is theta , the radius of curvature R of the meniscus in the capillary is