97%
The blood pressure is usually high when blood leaves the small arteries and enters the capillaries.
it t bags every bodyWhen it leaves the heart it passes to the aorta and goes to the body and the cycle starts again
a vein could be considered a smaller artery, they are smaller and take blood to the heart and arteries take it to the heart.
Oxygenated blood leaves the left side of the heart through the aorta,the largest artery and then to smaller arteries.Deoxygenated blood leaves the right side of the heart through the pulmonary artery then to arterioles and capillaries.
Yes; the blood pressure tends to be highest closest to the heart (actually, the highest pressure in the circulatory system is in the left ventricle) and slowly drops as it reaches the capillaries. However, there is still some blood pressure at the capillaries, which is why the serum can be forced across the capillary wall into the extracellular fluid to exchange nutrients. There is also some blood pressure in the venous system, although it is much lower than the arterial side.
Oxygen bonds to the iron in your hemoglobin. Hemoglobin is carried by your red blood cells. If I read your question correctly, You want to know where it leaves the blood; and the answer to that is in the capillaries. From there it diffuses into the cells, into the mitochondria, wherein it disappears (it's turned into water).
Renal Vein
venuoles
The blood pressure is usually high when blood leaves the small arteries and enters the capillaries.
The blood pressure is usually high when blood leaves the small arteries and enters the capillaries.
hibernation
Blood leaves the glomerular capillaries via a second set of arterioles, the efferent arterioles, which deliver blood to the peritubular capillaries.
Yes... It leaves through your capillaries
the lymhpatic system
Only vertebrates and some invertebrates have hemoglobin. Plants don't need hemoglobin (and therefore don't have any) to take up oxygen because they can do so via their stomatal openings in their leaves.
carbon dioxide
Yes, capillaries form a network around the alveoli. It is through the alveolar walls and into the capillaries that oxygen enters the blood stream. Carbon dioxide leaves the blood by the reverse route.