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Surface tension is the tendency of liquid surfaces at rest to contract to the smallest surface area possible. Surface tension allows objects with a higher density than water, such as razor blades and insects, to float on the surface of the water without being immersed.
- Surface tension is determined not only by the forces of attraction between particles in a specific liquid.
- But it can also be determined by the forces of attraction of solids, liquids, and gases in contact with it.
- The energy causing surface tension may be thought of as roughly similar to the work or energy necessary to remove the surface layer of molecules in a unit area.
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Surface tension is commonly measured in dynes/cm, which is the amount of force necessary to break a 1 cm long film.
Key Terms: Surface Tension, Surface Energy, Energy, Molecules, Adhesive force, Cohesive force, Liquid, Surface area, Surface tension formula
What is Surface Tension?
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Surface tension is the property of a liquid due to which the free surface of the liquid always tries to attain a minimum surface area.
- The surface tension of a liquid is mainly a force that acts to reduce the surface area of the liquid.
- Surface tension is a directed contracting force that draws molecules on a liquid's surface to its interior.
- Liquid surface tension is determined by the composition of the vapor phase.
- The surface tension of liquids plays an essential role in both everyday life and many industrial processes.
- It is measured in dyne/cm in the C.G.S system and N/m in the S.I unit.
Also Read:
| Related Articles | ||
|---|---|---|
| Buoyant Force | Pressure of Ideal Gas | Pseudo Force |
| Detergents and Surface Tension | Mechanical Properties of Fluids MCQ | MCQs on Properties of Bulk Matter |
Surface Tension Formula
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Surface tension can be expressed mathematically as the force (F) acting on the surface and the length (l) of the surface, as follows:
\(T = \frac{F}{l}\)
Where
- T= surface tension (N/m)
- F = force per unit length (N)
- l = length in which force acts (m)
Surface tension is sometimes defined as the ratio of the amount of work done (W) to the change in surface area (A).
\(T = \frac{W}{A}\)
The surface tension is a result of the Van der Waals force which attracts the debris of liquid together.
Unit of Surface Tension
Surface tension commonly represented by the symbol γ (also σ or T), is measured in force per unit length. Its SI unit is newton per meter but the cgs unit of dyne per centimeter is also used.
Dimensions of Surface Tension
Surface tension is given by the formula,
Surface tension = F/L
We have
- The dimensions of force F is [M L T-2].
- The dimensions of length L is [L]
Therefore, the dimensional formula of surface tension is given by
[Surface Tension] = [M L T-2] / [L]
⇒ [Surface Tension] = [M L0 T-2]
Factors Affecting Surface Tension
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The various factors affecting surface tension are
- Impurities: The surface tension decreases with the addition of impurities.
- Surfactants: Adding surfactants in liquids lowers the tension of water making it interrupt aside or get susceptible.
- Temperature: The surface tension of a liquid reduces as the temperature rises.
Examples of Surface Tension
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The following are the examples of surface tension
- A needle floats on the water's surface.
- Insects walking on water
- Rainproof tent materials in which water's surface tension bridges the pores in the tent material.
- Surface tension disinfectants (solutions with low surface tension).
- Clinical tests for jaundice.
- Cleaning clothes with soaps and detergents reduces the surface tension of water.
- Wash with cold water.
- Round bubbles in which the surface tension of water serves as the wall tension for the formation of water bubbles.
- This process also determines the shape of liquid droplets.
Adhesive and Cohesive Forces
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Adhesive and cohesive forces are both intermolecular forces, but they differ in the types of molecules they act between.
Adhesive Force
The force of attraction between molecules of different substances is called the force of adhesion or adhesive force.
Examples of Adhesive force are
- It enables us to write on the blackboard with chalk.
- Water wets glass because of adhesive force.
Cohesive Force
The force of attraction between molecules of the same substances is called the force of cohesion or cohesive force.
Examples of Cohesive forces are
- Two drops of liquid collapse into one drop because of cohesive force.
- Mercury did not wet glass because of cohesive force.
Solved Examples
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Ques. Find the surface tension of the liquid with a dragging force of 30 N when the length at which the force acts is 6 m.
Ans. Given
- Force, F = 30 N
- Length, L = 6 m
The formula of surface tension is given by
T = F/L
On substituting the values, we get
Surface tension, T = 30/6 = 5 N/m
Ques. Find the dragging force on the 3 m surface of the liquid if the surface tension is 7 N/m.
Ans. Given
- Surface tension, T = 7 N/m
- Length, L = 3 m
The formula of surface tension is given by
T = F/L
⇒ Force, F = T x L
On substituting the values, we get
F = 7 x 3 = 21 N
Things to Remember
- Surface tension is the tendency of liquid surfaces at rest to contract to the smallest surface area possible.
- The SI unit of surface tension is N/m.
- The formula of surface tension is T = F/L.
- The dimensional formula of surface tension is [M L0 T-2].
- The force of attraction between molecules of different substances is called the force of adhesion.
- The force of attraction between molecules of the same substances is called the force of cohesion.
Read More:
| Surface Tension – Related Concepts | ||
|---|---|---|
| Fluid Pressure | Difference between stress and pressure | Stokes’ Law |
| Surface Energy | Value of R in atm | Barometer |
| Critical Velocity | Different Properties of Fluids | Unit of Pressure |
Sample Questions
Ques. What is the surface tension of water at its boiling point? (1 Mark)
Ans. The surface tension of water at its boiling point is zero.
Ques. What is the dimensional formula of surface tension? (1 Mark)
Ans. The dimensional formula of surface tension is [M L0 T-2].
Ques. What happens when a soap bubble is charged? (1 Mark)
Ans. When a soap bubble is charged, it expands.
Ques. Compute the floor anxiety of a given liquid whose dragging force is 5N and the length in which the force acts is 2 cm. (2 Marks)
Ans. Given values are,
F = 5N and l= 2cm
The method for floor anxiety is,
T = 5/2
T = 2.5N/cm
Ques. A needle that is 5 cm long can just rest on the surface of the water without wetting. What is its weight? (2 Marks)
Ans. In the case of a needle, the water wets it from two sides, subsequently the effective length = 21
We have, T=F / effective length
F= T* effective length = T x 21
Or, F= 0.07 x 2 x 5 x 10 to the power-2
Or, F=0.007 N
Ques. Calculate the force required to shy away from a horizontal round loop of wire of radius 0.02m from the floor of the water (2 Marks)
Ans. The liquid wets the ring from both sides in the case of a ring.
Hence, the effective length
= 2 x 2 x 3.14 x r
=0.075 x 4 x 3.142 x 0.02=0.0188N
Ques. A horizontal round loop of wire of radius 0.02m is reduced into crude oil form film. The force due to the floor anxiety of the liquid is 0.0113N. Calculate crude oil's surface tension. (2 Marks)
Ans. In the case of a loop, the liquid wets it from two sides
Hence, the effective length
= 2 x 2 x 3.14 x r
=0.0113
=0.04496 N/m
Ques. Calculate the force necessary to lift a flat circular plate with a radius of 0.01m from the water's surface? (2 Marks)
Ans. In the case of a round plate, the water wets only its outer edges,
Hence, the effective length= 2 x 3.14 x 0.01
We know, F= T* effective length
Or, F=0.075 x 2 x 3.14 x 0.01=4.173 x 1000
Or, the Force required is 4.713*1000 N
Ques. A cleaning soap bubble 50 mm in diameter incorporates stress (in excess of atmospheric) of 2 bars. Discover the surface tension in the cleaning soap film. (2 Marks)
Ans. Given that soap, bubble radius is 25 mm = 0.025 m
Dp = 2 Bar = 2 x 105 N/m2
Pressure internal of a soap bubble and surface tension (s) are related by,
Dp = 4s/r
s = Dpr/4 = 2 x 105 x 0.025/4 = 1250 N/m
Ques. Suppose, you have got a small piece of metal that is 1 cm long and weighs 0.1 N. Discover the surface tension. (2 Marks)
Ans. Looking at the numerical, we discover that we have the F as 0.1 N and d as 1 cm. Using the following approach, we can determine the surface tension:
γ = F/d
γ = 0.1N/1 cm
0.1 N/ 0.01
m = 10 N/m.
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