Ficks law
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Sep 05, 2012
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About This Presentation
good basic chemistry laws
Slide Content
The rate of diffusion of a gas into a liquid is:
–Directly proportional to:
•the partial pressures of the gas above the liquid
•surface area of available for gas exchange
•solubility co-efficient of the gas
–Inversely proportional to:
•Gram molecular weight of the molecules
•Thickness of the membrane
–Directly proportional to:
•the partial pressures of the gas above the liquid
•surface area of available for gas exchange
•solubility co-efficient of the gas
–Inversely proportional to:
•Gram molecular weight of the molecules
•Thickness of the membrane
Directly proportional to:
the partial pressures of the gas above the liquid
Molecules diffuse from high to
low concentration
Obviously, there are more
molecules of blue squares than
there are of green circles,
so the partial pressure of the blue
squares is pushing more molecules
into the liquid
the partial pressures of the gas above the liquid
Molecules diffuse from high to
low concentration
Obviously, there are more
molecules of blue squares than
there are of green circles,
so the partial pressure of the blue
squares is pushing more molecules
into the liquid
•The partial pressure of the 02 in an alveoli is 100 mmHg.
•The partial pressure of the 02 in the capillary is 40 mmHg
•The gradient between alveoli and capillary is 100-40 or 60 mmHg
•The 02 in the alveoli will move into the capillary until the partial
pressures equilibrate in both compartments
•The partial pressure of the 02 in the capillary is 40 mmHg
•The gradient between alveoli and capillary is 100-40 or 60 mmHg
•The 02 in the alveoli will move into the capillary until the partial
pressures equilibrate in both compartments
•The partial pressure of the C02 in an alveoli is 40 mmHg.
•The partial pressure of the C02 in the capillary is 46 mmHg
•The gradient between alveoli and capillary is 46-40 or 6 mmHg
•The C02 in the capillary will move into the alveoli until the
partial pressures equilibrate in both compartments
•The partial pressure of the C02 in the capillary is 46 mmHg
•The gradient between alveoli and capillary is 46-40 or 6 mmHg
•The C02 in the capillary will move into the alveoli until the
partial pressures equilibrate in both compartments
Directly proportional to:
the partial pressures of the gas above the liquid
02
C02
PA02 : 100 mmHg
P cap 02 : 40 mmHg
PAC02 : 40 mmHg
P cap 02 : 46 mmHg
the partial pressures of the gas above the liquid
02
C02
PA02 : 100 mmHg
P cap 02 : 40 mmHg
PAC02 : 40 mmHg
P cap 02 : 46 mmHg
Directly proportional to:
surface area of available for gas exchange
•Imagine you have a
filter over your air
conditioner intake
•If you cut a bigger
hole into the wall and
exchange your filter
for a larger one, more
air can move through
the filter to
surface area of available for gas exchange
•Imagine you have a
filter over your air
conditioner intake
•If you cut a bigger
hole into the wall and
exchange your filter
for a larger one, more
air can move through
the filter to
Directly proportional to:
surface area of available for gas exchange
•The surface area of
the average adult
human lung is equal to
surface area of a
tennis court
•The surface area of
the gills of a shark are
so much smaller than
the shark must swim
all the time to breath
or can catch so ZZZ
by sleeping in a rapid
current of water.
surface area of available for gas exchange
•The surface area of
the average adult
human lung is equal to
surface area of a
tennis court
•The surface area of
the gills of a shark are
so much smaller than
the shark must swim
all the time to breath
or can catch so ZZZ
by sleeping in a rapid
current of water.
Directly proportional to:
solubility co-efficient of the gas
•HENRY’S LAW states that a volume of gas will dissolve into a liquid is
equal to its solubility co-efficient x its partial pressure
–Different gases have different physical properties.
–Some gases dissolve easily into liquids, while others don’t.
–A solubility co-efficient is a score based on the measurement of
how much a given gas volume can dissolve in 1 ml of a given liquid at
a given temperature and standard pressure
The solubility co-efficient of 02 is: .023 ml / 1 ml blood plasma
The solubility co-efficient of C02 is: 0.510 ml/ml blood plasma
.023: .510 as 1: 22
or C02 dissolves 22 x better than 02 does
solubility co-efficient of the gas
•HENRY’S LAW states that a volume of gas will dissolve into a liquid is
equal to its solubility co-efficient x its partial pressure
–Different gases have different physical properties.
–Some gases dissolve easily into liquids, while others don’t.
–A solubility co-efficient is a score based on the measurement of
how much a given gas volume can dissolve in 1 ml of a given liquid at
a given temperature and standard pressure
The solubility co-efficient of 02 is: .023 ml / 1 ml blood plasma
The solubility co-efficient of C02 is: 0.510 ml/ml blood plasma
.023: .510 as 1: 22
or C02 dissolves 22 x better than 02 does
Inversely proportional to:
GMW
•GRAHAM’S LAW : states that the ability of a gas
to diffuse is inversely proportional to it’s Gram
molecule weight
–02 has only 2 0xygen molecules, while C02 has a carbon as well as
the 2 oxygen molecules.
–02 can move faster through a membrane than C02 can because it
has less mass.
GMW
•GRAHAM’S LAW : states that the ability of a gas
to diffuse is inversely proportional to it’s Gram
molecule weight
–02 has only 2 0xygen molecules, while C02 has a carbon as well as
the 2 oxygen molecules.
–02 can move faster through a membrane than C02 can because it
has less mass.
Inversely proportional to:
thickness of the membrane
•Imagine you have a
curtain across your
window that is made of
lace and on the other
window you have a curtain
made of velvet.
•Which of the two
curtains will allow the
wind to blow into the
room?
•Naturally the thin lacy
curtain will allow wind
better than the thick
heavy velvet
thickness of the membrane
•Imagine you have a
curtain across your
window that is made of
lace and on the other
window you have a curtain
made of velvet.
•Which of the two
curtains will allow the
wind to blow into the
room?
•Naturally the thin lacy
curtain will allow wind
better than the thick
heavy velvet
Inter phase mass trasfer
•the transfer of solute A from one fluid phase by convection and then
through a second fluid phase by convection
•the two phases are in direct contact with each other
•the interfacial area is not well defined
•mass transfer is caused by a concentration gradient in each phase
•equilibrium exist at the interface
•the transfer of solute A from one fluid phase by convection and then
through a second fluid phase by convection
•the two phases are in direct contact with each other
•the interfacial area is not well defined
•mass transfer is caused by a concentration gradient in each phase
•equilibrium exist at the interface
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