Transcript Slide 1
15.3.12
The force with which surface
molecules are held is called the
surface tension of the liquid
It
is
the
force
acting
perpendicularly inward on the
surface layer of a liquid to pull its
surface molecules towards the
interior of the fluid
It keeps the surface like a
stretched membrane, and hence
keeps the contact area minimum
Water striders use surface tension to walk
on the surface of pond. The surface of the
water behaves like an elastic film: the
insect's feet cause indentations in the
water's surface, increasing its surface area
and thus decreasing surface tension at
those points. Its tiny mass and geometry of
its legs allow it to be supported by the high
surface tension of water
Formation of drops occurs when a mass of
liquid is stretched. Water adhering to the
tap gains mass until it is stretched to a
point where the surface tension can no
longer bind it to the tap. It then separates
and surface tension forms the drop into a
sphere. If a stream of water were running
from the tap, the stream would break up
into drops during its fall. Gravity stretches
the stream, then surface tension pinches it
into spheres
Surface tension at liquid-air interface:
A soap bubble is a thin film of soapy water
enclosing air that forms a hollow sphere. Surface
tension causes a bubble to assume the smallest
surface area to contain a given volume -- resulting
in the spherical shape
Liquid-solid interface
Beading of rain water on the surface of a waxy
surface, such as a leaf. Water adheres weakly to
wax and strongly to itself, so water clusters into
drops. Surface tension gives them their nearspherical shape, because a sphere has the smallest
possible surface area to volume ratio
Liquid-Liquid interface
Separation of oil and water (in this case, water and
liquid wax) is caused by a tension in the surface
between dissimilar liquids.
Temperature
Surface tension falls with rise in temperature hence increasing
the surface area
Major reason for using hot water for washing is that its
surface tension is lower and it is a better wetting agent
Solute
Solutes can have different effects on surface tension
depending on their structure:
Little or no effect, for example sugar
Increase surface tension, inorganic salts
Decrease surface tension progressively, alcohols
Decrease surface tension and, once a minimum is reached, no
more effect: surfactants
According to this principle substances which lower the
surface tension becomes concentrated in the surface layer
whereas substances which increase surface tension are
distributed in the interior of the liquid
Lipids and proteins effective in lowering surface tension are
found concentrated in the cell wall
Soaps and bile salts reduce the surface tension of water while
sodium chloride and most inorganic salts increase the surface
tension
Surface tension of plasma is slightly less than water
Emulsifying action of Bile salts
Bile salts are surface active. They facilitate action of
pancreatic lipase and hence absorption of free fatty acids. Bile
salts lowers surface tension of fat droplets
Hay’s test
This test is based on the surface tension and is employed for
detecting the presence of bile salts in urine (an indication of
jaundice). If urine contains bile salts, the fine sulfur powder
sprinkled on its surface settles down due to lowering of
surface tension. Fine sulfur continues to float on the surface
if urine does not contain bile salts
Laplace’s law states that the pressure inside an inflated
elastic container with a curved surface, e.g., a bubble is
inversely proportional to the radius as long as the surface
tension is presumed to change little.
A common illustration of this phenomenon is that the effort
required to blow up a balloon is greatest when the diameter
of the balloon is least
Alveoli can be compared to gas in water, as the alveoli are wet and
surround a central air space. The surface tension acts at the airwater interface and tends to make the bubble smaller (by
decreasing the surface area of the interface).
Surfactant is a lipoprotein mixture secreted by special surfactants
secreting cells i. e. type II granular pneumocytes present in
alveolar epithelium
On the basis of Laplace law, air would be displaced from
the smaller alveolus into the larger one and the smaller
alveolus would thus become still smaller
This process would continue until the smaller alveolus
would collapse entirely while displacing all of its air into
the larger one
This process would lead to instability of alveoli
Instability is prevented by surfactant. As an alveolus becomes
smaller the surfactant becomes more concentrated at the
surface of alveolar lining fluid. Hence surface tension becomes
progressively more less
On the other hand as an alveolus becomes bigger, the
surfactant is spread more thinly on the fluid surface. This
increases the surface tension
This property of surfactant stabilizes the sizes of the alveoli,
causing the larger alveoli to contract more and smaller ones to
contract less.
The absence of surfactant in the alveolar membrane of some
premature infants causes the respiratory stress syndrome in
them
Factors reducing production of surfactant or increasing its
rate of destruction may contribute to adult respiratory
distresss syndrome