At placenta, you have a membranes from mother and fetus come in close contact. The area of contact is fairly large, much more than you can imagine. Here the blood from mother and the fetus come in close contact, but does not get mixed up. Through this so called placental barrier, only very small molecules can pass. So all the amine acids, glucose, fat molecules ( may be fatty acids and glycerol) vitamins and minerals along with water can pass through this membrane. Globulin can pass but not albumin. That is the beauty of Nature.
The gut is adapted for diffusion through some small organelles which are known as villi. The villi are found on the walls of the small intestines which allows the gut to perform diffusion in digestion.
Gases like oxygen and carbon dioxide diffuse through and across tissues in response to differences in partial pressure.
In late pregnancy, the mean partial pressure of oxygen (P02) in maternal blood is considerably higher than in fetal blood. As a consequence, oxygen readily diffuses across the placenta from maternal to fetal blood. Despite its low PO2, fetal blood is able to transport essentially the same quantity of oxygen to tissues as maternal blood. This is because the hemoglobin concentration in fetal blood is about 50% higher than in maternal blood, and the majority of hemoglobin in the fetus is fetal hemoglobin, which has a higher oxygen carrying capacity than adult hemoglobin.
Carbon dioxide is produced abundantly in the fetus, and the PCO2 of fetal blood is higher than maternal blood. Carbon dioxide therefore diffuses from fetal blood, through the placenta, into the maternal circulation, and is disposed of by expiration from the mother's lungs.
it increases the surface area because they are projections from the surface of the ileum. they contain microvilli which also increase their surface area they contain a blood capillary and lacteal which allow the digested food to diffuse quickly into the bloodstream and hence be transported around the body
The Placenta uses a the process of diffusion to diffuse the nutrients from the mothers blood into the babies. Then the umbilical cord carries the nutrients to the baby to the Placenta. Answer is Placenta
they have a large surface area and are important
The synapse releases a chemical that can diffuse across the gap between two neurones. The synapse has a large surface area, which means diffusion of the chemical can occur at a higher rate.
The placenta is created by the egg.
Placenta
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The Placenta uses a the process of diffusion to diffuse the nutrients from the mothers blood into the babies. Then the umbilical cord carries the nutrients to the baby to the Placenta. Answer is Placenta
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lung and heart
Transport of Oxygen through the placenta to the fetus
Nutrients, oxygen, and disease fighting substances.You're welcome because you don't have to read aye? xD
they have a large surface area and are important
The structure of the placenta is related to its functions because its functions is to support the embryo/foetus in ways such as providing it with nourishment, and oxygen which explains the relevance of the placenta to its function of supporting the growing individual.
Placenta through the process of diffusion
The alveoli have very thin walls, which allow for rapid diffusion into the surrounding capillaries. There are also many alevoli in the lung, and that increases the surface area dramatically, allowing for more diffusion to occur
adapted by having a big surface area so it can absorb more oxygen and it contains lots of oxygen. Also it has very thin tubes for diffusion.
Umbilical Cord