Excess pressure can be `(2T//R)` for

Statement-1 : If there is a soap bubble in air then excess pressure inside it is (4T)/(R) , where T is surface tension of soap and R is the radius of the bubble. Statement-2 : If there is a water drop in air then excess pressure inside it is (2T)/(R) Statement-3 : If there is an air bubble in water then excess pressure inside it is (4T)/(R)

Excess pressure in a soap bubble of radius r is proportional to:

A constant volume hydrogen thermometer was used to measure the temperature of a hot bath. The excess pressure in the bulb over the atmospheric pressure is found to be equal to 114cm of Hg. At 0^(@)C the pressure in the bulb is equal to that of the atmosphere. Find the temperature the hot bath. [ Hint ( P)/( T) = ( P_(0))/( T_(0)) ]

A soap bubble has radius R and thickness d(ltltR) as shown. It colapses into a spherical drop. The ratio of excess pressure in the drop to the excess pressure inside the bubble 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. In a meniscus of radius r , with excess pressure p in atmospheric pressure p_(0) , the force experienced 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. If the excess pressure in a soap bubble is p , the excess pressure in an air bubble 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

The excess pressure in a soap bubble is thrice that in other one. Then the ratio of their volumes is

Root pressure can be responsible for

The excess pressure inside an air bubble of radius r just below the surface of water is P_(1) . The excess pressure inside a drop of the same radius just outside the surface is P_(2) . If T is surface tension then