The radius of a soap bubble is r. the surface tension of soap solution is T, keeping temperature constant, the radius of the soap bubble is doubled the energy necessary for this will be-

When a soap bubble is charged :-

What will be the change in the radius of a soap bubble if it is given positive charge ?

If T is the surface tension of a liquid, the energy needed to break a liquid drop of radius R into 64 drops is :-

The surface tension of soap solution is 0.03 N//m . The work done in blowing to from a soap bublle of surface area 40 cm^(2) , (in J) , is

There is a soap bubble of radius 2.4xx10^(-4)m in air cylinder which is originally at a pressure of 10^(5)(N)/(m^(2)) . The air in the cylinder is now compressed isothermally until the radius of the bubble is halved. (the surface tension of the soap film is 0.08Nm^(-1)) . The pressure of air in the cylinder is found to be 8.08xx10^(n)(N)/(m^(2)) . What is the value of n?

Colours appear on a thin soap film and soap bubbles due to the phenomenon of ......

Soap bubble appears coloured due to the phenomenon of

If radius of a spherical bubble starts to increase with time t as r=0.5t . What is the rate of change of volume of the bubble with time t=4s ?