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Why is the surface of the placenta covered in villi?
The villi on the surface of the placenta increase the surface area available for nutrient and gas exchange between the mother and fetus through the blood vessels. This increased surface area helps ensure efficient transfer of oxygen and nutrients to the fetus and removes waste products from the fetal circulation.
What provide the greatest surface area for gas exchange?
Alveoli in the lungs provide the greatest surface area for gas exchange in the body. They are tiny air sacs that are surrounded by capillaries where oxygen and carbon dioxide are exchanged during respiration. The numerous alveoli increase the total surface area available for this gas exchange process.
How is surface area important to gas exchange?
Gas exchange is important as it is the transfer of oxygen from the surroundings to individual cells in the body, required by the cells for respiration. This process produces energy, essential for the organisms survival. A waste product of respiration is carbon dioxide, which if not removed from the body by gas exchange, will be harmful.
The blank develops into the fetal portion of the placenta?
The chorion develops into the fetal portion of the placenta. It plays a crucial role in nutrient and gas exchange between the mother and the fetus during pregnancy.
How a placenta is adapted to carry out its function?
The placenta is adapted to carry out its function of providing nourishment and oxygen to the developing fetus by having a large surface area covered in villi for efficient exchange of nutrients and gases. It also has a rich blood supply from both the mother and the fetus, allowing for the exchange of substances between their circulatory systems. Additionally, the placenta produces hormones that help maintain the pregnancy and support fetal development.
For what purpose is the placenta attached to the mother and fetus?
The placenta being attached to both the mother and the fetus, provide important benefits, such as supplying nutrients to the fetus, eliminating waste, and gas exchange.
How does the fetal circulation work?
The blood goes from the mother to the placenta where gas exchange occurs to the fetus. From the placenta the blood goes into the arterium and to the body of the fetus.
What provides a large surface area for gas exchange?
Your lungs provide a very large surface area for gas exchange.
Does the diaphragm function in fetus pig?
No, because it gets it's gas exchange done by it's mother.
Why is the surface of the placenta covered in villi?
The villi on the surface of the placenta increase the surface area available for nutrient and gas exchange between the mother and fetus through the blood vessels. This increased surface area helps ensure efficient transfer of oxygen and nutrients to the fetus and removes waste products from the fetal circulation.
What happens if the surface area of the respiratory membrane decrease in gas exchange?
A decrease in the surface area of the respiratory membrane will result in a decrease in gas exchange.
Is an organ that connects the developing fetus to the uterine wall to allow nutrient uptake waste elimination and gas exchange?
placenta
The greatest area for gas exchange in the lungs is provided by?
greatest area for gas exchange in the lungs is provided by Whoever wrote the above answer is a dick head. Try ALVEOLI.
What does the placenta do for the reproductive?
The placenta connects a developing fetus to the wall of the uterus, which allows gas exchange, nutrient absorption, and waste elimination
What effect does emphysema have on the total area available for gas exchange?
Emphysema decreases the total area available for gas exchange in the lungs by damaging and destroying the alveoli. This reduces the surface area where oxygen can pass into the bloodstream and carbon dioxide can be removed, leading to impaired breathing and inadequate oxygenation of the body.
The feathery structure of gills aid in the function of gas exchange by?
it increases surface area for gas exchange which means that more oxygen is absorbed.
Does respiratory exchange take place in fetus?
no
