An annular disc of radius r(1 )= 10 cm a...

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)`.

Text Solution

Verified by Experts

The correct Answer is:

`6782.4 dyne`

`F=2pir_(1)T+2pir_(2)T`

`=2pi(r_1)1+r_(2))T`
`=2xx3.14(10+5)(72)=6782.4"dyne"`

Topper's Solved these Questions

PROPERTIES OF SOLIDS AND FLUIDS
CENGAGE PHYSICS|Exercise Single Correct|112 Videos
PROPERTIES OF SOLIDS AND FLUIDS
CENGAGE PHYSICS|Exercise Multiple Correct|17 Videos
PROPERTIES OF SOLIDS AND FLUIDS
CENGAGE PHYSICS|Exercise Exercise 5.3|9 Videos
NEWTON'S LAWS OF MOTION 2
CENGAGE PHYSICS|Exercise Integer type|1 Videos
RIGID BODY DYNAMICS 1
CENGAGE PHYSICS|Exercise Integer|11 Videos

Similar Questions

Explore conceptually related problems

The minimum force required to separate a light glass plate of perimeter 5m from a water surface is (Given surface tension of water = 70 xx 10^(-3) N/m)

A paper disc of radius R from which a hole of radius r is cut out is floating in a liquid of the surface tension S . The force on the disc due to the surface tension is

Consider the water drop of radius R . Find surface tension force between the left half surface and right half surface ?

The pressure inside an air bubble of radius 2 cm formed 20 cm below an open water surface is (Given surface tension of water = 70 xx 10^(-3) Nm^(-1) )

A ring of radius 0.75 cm is floating on the surface of water . If surface tension of water is 0.07 N/m the force required to lift the ring from the surface of water will be

Surface tension of water is 0.07 N/m . The weight of water supported by the surface tension in a capillary tube of radius 1 xx 10^(-4) m will be

A rectangular plate of dimension 6 cm xx 4cm and thickness 2mm is placed with its largest face flat on the surface of water. Find the downward force on the plate due to surface tension. Surface tension of water is 7.0 xx 10^(-2)Nm^(-1) .

The amount of work done in forming a soap bubble of radius r = 1 cm (surface tension T = 3 xx 10^(-2) N//m ) is

Force necessary to pull a circular plate of 5cm raduis from water surface for which surface tension is 75 dynes/cm, is

A ring of radius 0.75 cm is floating on the surface of water . If surface tension of water is 0.07N//m , then the force required to lift the ring from the surface of water will be

CENGAGE PHYSICS-PROPERTIES OF SOLIDS AND FLUIDS-Subjective

A bob of mass m hangs from the ceiling of a smooth trolley car which i...
Text Solution
|
A smooth uniform, string of natural length l, cross-sectional area A ...
Text Solution
|
A narrow capillary tube is dipped 10 cm below water surface and a liqu...
Text Solution
|
A thin plate of large area is placed midway in a gap of height h fille...
Text Solution
|
When a vertical capillary of length with the sealed upper end was brou...
Text Solution
|
A rubber cord has a cross -sectional area 1 mm^(2)and total un stretch...
Text Solution
|
Two wires of diameter 0.25 cm, one made of steel and other made of bra...
Text Solution
|
A steel rod of length l(1) = 30 cm and two identical brass rod of leng...
Text Solution
|
The two wires shown in figure are made of the same material which has ...
Text Solution
|
A copper wire of negligible mass, 1 m length and cross-sectional area ...
Text Solution
|
An amusement park ride consists of airplane shaped cars attached to st...
Text Solution
|
A capillary tube of length (i) l = 60 cm, (ii) l = 50 cm and radius r ...
Text Solution
|
An annular disc of radius r(1 )= 10 cm and r(2) = 5 cm is placed on a ...
Text Solution
|
Two soap bubbles of radii a and b coalesce to form a single bubble of ...
Text Solution
|
Calculate the pressure indise a small air bubble of radius 0.01 mm sit...
Text Solution
|
A mercury drop of radius R is sprayed into n droplets of equal size. C...
Text Solution
|