Physics, asked by kmera9407, 1 month ago

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A coaxial cylinder made of glass is immersed in liquid of surface tension S'. Radius of inner and outer surface of cylinder are R1 and R2 respectively. Height till which liquid will rise is (Density of liquid is p)-


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Answers

Answered by senthilchellam1982
1

Answer:

Surface tension is the property of liquids by virtue of which its free surface behaves like a free membrane. It is given in the problem that a coaxial cylinder is made up of solid glass and is placed inside the liquid of surface tension

SS

. The coaxial cylinder consists of two

cylinders with the inner cylinder of radius

R1R1

 and the outer cylinder of radius

R2R2

.

Therefore, the liquid in the hollow cylinder will rise within the space between inner and outer radius due to capillarity. The phenomenon of rise and fall of a liquid in the capillary tube is called capillarity.

The height to which the liquid rises due to capillarity is given by

h=2Scosθρrgh=2Scos⁡θρrg

 

→(1)→(1)

where, 

SS

is the surface tension

θθ

 is the angle of contact

ρρ

 is the density of liquid

rr

 is the radius of capillary or cylinder

gg

 is acceleration due to gravity.

The radius 

rr

in equation (1) will be the radius of outer cylinder minus the radius of inner cylinder. Therefore, 

r=R2−R1r=R2−R1

The angle of contact between solid glass and pure water is zero. That is 

θ=0∘θ=0∘

.

Then, 

cosθ=cos0∘

Answered by rahmanzoya237
1

Answer:

The height to which the water will rise within the gap due to surface tension depends on the difference between the outer radius and the inner radius of the co-axial cylinder, the density of water, surface tension and the angle of contact.

Formula Used:The height to which the liquid rises due to capillarity is given by:h=2Scosθρrg

Complete step by step solution:

Surface tension is the property of liquids by virtue of which its free surface behaves like a free membrane. It is given in the problem that a coaxial cylinder is made up of solid glass and is placed inside the liquid of surface tensionS

. The coaxial cylinder consists of two

cylinders with the inner cylinder of radiusR1

and the outer cylinder of radiusR2

.

Therefore, the liquid in the hollow cylinder will rise within the space between inner and outer radius due to capillarity. The phenomenon of rise and fall of a liquid in the capillary tube is called capillarity.

The height to which the liquid rises due to capillarity is given by

h=2Scosθρrg

→(1)

where, S

is the surface tension

θ is the angle of contact

ρ is the density of liquid

r is the radius of capillary or cylinder

g is acceleration due to gravity.

The radius r

in equation (1) will be the radius of outer cylinder minus the radius of inner cylinder. Therefore, r=R2−R1

The angle of contact between solid glass and pure water is zero. That is θ=0∘

Then, cosθ=cos0∘=1

The height of water that rises in the gap between inner and outer radius of the co-axial cylinder is

h=2S(R2−R1)ρg

Note:The water used should be pure. The angle of contact will only be zero when it is for pure water and clean solid glass. Impure water such as tap water may increase the height to which water will rise.

For impure water, the angle of contact will be less than 90∘

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