The surface tension of water is 75(dyne)...

The surface tension of water is `75(dyne)/(cm)`. Find the minimum vertical force required to pull a thin wire ring up (refer figure) if it is initially resting on a horizontal water surface. The circumference of the ring is `20cm` and its weight is `0.1N`

Similar Questions

Explore conceptually related problems

The surface tension of water at 20°C is 72.75 dyne cm^(-1) . Its value in SI system is

The surface tension of water at 20^@C is 72.75 dyne cm^(-1) . Its value in SI system is

The surface tension of water of 20^(@) is 72.75 dyne cm^(-1) . Its value in SI system is

The surface tension of water at 0^(@) C is 75.5 dyn/cm. Calculate the surface tension of water at 25^(@)C .

The surface tension of water at 20^(@)C is 73 dynes cm^(-1) , The minimum value of work done needed to increases surface are of water from 2 cm^(2) to 5cm^(2) is

Surface tension of water at 0^@C is 75 dyne/cm, find the surface tension of water at 25^@C . (alpha for water = 0.0027//^@C )

The surface tension of water at 0^@C is 72 dyne/cm, surface tension of water at 30^@C is (alpha for water = 0.0025//^@C)

If the length of a needle floating on water is 2 cm then the additional force due to surface tension required to pull the needle out of water will be

The surface tension of water is `75(dyne)/(cm)`. Find the minimum vertical force required to pull a thin wire ring up (refer figure) if it is initially resting on a horizontal water surface. The circumference of the ring is `20cm` and its weight is `0.1N`

Similar Questions

Recommended Questions