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Blood is pumped at high pressures in arteries from the heart to ensure that all parts of the body receive adequate blood flow. Capillary beds, however, would hemorrhage under direct arterial pressures. How does the design of the circulatory network contribute to reducing blood pressure to avoid this scenario?
A. Blood flow through the capillaries is essentially frictionless, and this reduces the amount of pressure on their walls. B. The total cross-sectional diameter of the arterial circulation increases with progression from artery to arteriole to capillary, leading to a reduced blood pressure. C. Fluid loss from the arteries is high enough that pressure drops off significantly by the time blood reaches the capillaries. D. Capillary beds have the thickest walls of any blood vessel to resist these high pressures.

Respuesta :

The total cross-sectional diameter of the arterial circulation increases with progression from artery to arteriole to the capillary, leading to reduced blood pressure.

Arteries have a thick wall as compared to veins and arterioles. But if we look at capillaries closely, they have greater total cross-section diameters as compared to arteries.

When the blood has to pass through the capillaries, all the red blood cells line themselves up to pass through them.

When the red blood cells line themselves to pass through the capillaries, the blood pressure is reduced eventually.

There is the accumulation of red blood cells can cause congestion in arteries which can increase blood pressure, as it creates an extra load on the heart.

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https://brainly.com/question/1171823

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