The radius of a soap bubble whose potential is 16 V is doubled. The new potential of the bubble is

A soap bubble is charged to a potential 12 V. If its radius is doubled, then the potential of the bubble becomes

Soap Bubble Colour

Under isothermal condition, energy E is supplied to a soap bubble of surface tension sigma and radius r, to double the radius of the soap bubble. The value of E is

The radius R of the soap bubble is doubled under isothermal condition. If T be the surface tension of soap bubble. The work done in doing so it given by

A soap bubble of radius r and surface tension T is given a potential V. Show that the new radius R of the bubble is related with the initial radius by the equation P(R^(3) -r^(3)) +4T (R^(2)-r^(2)) = (in_(0)V^(2)R)/(2) where P is the atmospheric pressure.

Colours of thin soap bubbles are due to

Colours of thin soap bubbles are due to

The work done in blowing a soap bubble of volume V is W . The work done in blowing a soap bubble of volume 2V is

Air is pushed into a soap bubble of radius r to double its radius. If the surface tension of the soap solution is S, the work done in the process is

A soap bubble of radius 'r' and surface tension 'T' is given a potential of 'V' volt. If the new radiys 'R' of the bubble is related to its initial radius by equation. P_(0)[R^(3) - r^(3)] + [lambda T [R^(2) - r^(2)] - epsilon_(0) V^(2)R//2 = 0 , where P_(0) is the atmospheric pressure. Then find lambda