The surface tension of a thin liquid film formed between a U shaped wire and a light slider of length 30 cm supporing a weight of `1.5xx10^(-2)N` is

A thin liquid film formed between a U- shaped wire and a light slider supports a weight of 1.5 xx 10^(-2)N (see figure). The length of the slider is 30 cm and its weight negligible. The surfaces tension of the liquid film is :

A thin liquid film formed between a U- shaped wire and a light slider supports a weight of 1.5 xx 10^(-2)N (see figure). The length of the slider is 30 cm and its weight negligible. The surfaces tension of the liquid film is :

A U-shaped wire is dipped in a soap solution, and removed. A thin soap film formed between the wire and a light slider supports a weight of 1.5xx10^(-2)N (which includes the small weigh of the slider). The length of the slider is 30cm. What is the surface tension of the film?

A thin film of liquid is formed in a rectangular frame of wire and a light slider supports a weight of (2.5 * 10^-2)N .The length of slider is 20cm and its weight negligible. The surface tension is liquid is

The surface tension of liquid is 0.5 N / m . If a film is held on a ring of area 0.02 m square , its surface energy is

The surface tension of a liquid is 5 Newton per metre. If a film is held on a ring of area 0.02 metres^(2) , its surface energy is about :

The surface tension the surface tension of a liquid is 10 N/m. If a film is held on a ring of area 0.01 m square, its surface energy is about Newton

An annular disc of radius r_(1 )= 10 cm and r_(2) = 5 cm is placed on a water surface. Find the surface tension force on the disc if we want to pull it from water surface. Take coefficient of surface tension as sigma= 7 xx10^(-3) N//m, g = 10 ms^(-12) .

A rigid bent light rod of total length 2l can slide on fixed wire frame with the help of frictionless sliders. There is thin liquid film (surface tension T) between bent rod and wire frame. In equilibrium the elongation in spring is given by ((4T l alpha)/(5K)) . then find the value of alpha .

Two thin films of same liquid of surface tension 'T' are formed between a smooth rectangular wire frame and two thin uniform strainght wires each of mass 'm' and length 'I' connected to a massless non-deformed spring of stiffness 'k' and then the system is released form rest. The maximum elongation produced in the spring is