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What else can I help you with?
Trace the path of blood through the heart from vena cava to the lungs?
i cnt trace it cuz this is a writing answer but the unoxygnated blood comes down through veins into the right atrium and out the right ventricle it passes the aveoli goes through the left atrium and out the left ventricle through the aorta and eventually into small capilaries
Can you trace a drop of blood from the heart throughout the body?
Right atrium > right ventricle > pulmonary artery > lung > pulmonary vein > left atrium > left ventricle > aorta > arteries > arterioles > capillaries > venules > veins > vena cava > right atrium (again)
How can you trace a drop of blood from the pulmonary artery to the right radial artery?
Why would you want to do that. You would have to cut open the heart and watch the blood move from the pulmonary artery through the heart and into the right radial artery.
Trace the path of a red blood cell from the lungs to the aorta?
Trace a drop of blood from the left knee to the right arm
Trace blood from bicuspid valve?
From the bicuspid valve, blood travels to the left ventricle. From there, it's pumped to the aorta and throughout the body.
How do you trace the flow of blood from the left ventricle to capillary beds?
The blood flows from the left ventricle into elastic arteries (aortic trunk), then to the muscular arteries (external carotid artery), then to arterioles, then to the capillary beds.
Trace the flow of bloodthrogh the heart?
Begins at left side of heart, oxygen rich blood enters left atrium to left ventricle then to body via the aorta. From the right atrium oxygen depleted blood enters the right ventricle which pumps it through the pulmonary artery to the lungs where it is enriched with oxygen again and passes on to the left atrium.
Trace blood supply through the kidney?
***CORRECT ANSWER***Renal Arteries--> Segmental Arteries--> Lobar Arteries--> Interlobar Arteries--> Arcuate Arteries--> Cortical Radiate Arteries--> Afferent Arterioles--> Glomeruli--> Efferent Arterioles--> Peritubular Capillaries--> Cortical Radiate Veins--> Arcuate Veins--> Interlobar Veins--> Renal Vein.
Trace the path of blood from vena cava to aorta?
vena cava -> right atrium-> through the right atrioventricular valve -> right ventricle -> through the Plumonary semi-lunar valve -> Plumonary trunk -> out the pulmonary artery -> lungs -> pulmonary veins -> left artrium -> through the left atrioventricular valve -> left ventricle -> through the aortic valve -> aorta -CB
How do you trace a red blood cell from the right pollux capillary bed through the body and return to the right pollux?
To trace a red blood cell from the right pollux capillary bed, it first enters the venules, which merge into the right median cubital vein, then into the brachial vein, and subsequently into the axillary vein. From there, it travels into the subclavian vein, then the brachiocephalic vein, and finally enters the superior vena cava, leading to the right atrium of the heart. The blood cell then moves through the right ventricle into the pulmonary artery, travels to the lungs for oxygenation, and returns via the pulmonary veins to the left atrium. After passing into the left ventricle, it is pumped through the aorta, through the systemic circulation, and eventually reaches the capillary bed of the right pollux again.
How do you trace the right kidney to right ovary?
The right kidney and right ovary are not directly connected anatomically. However, you can trace their relative positions through the peritoneum and retroperitoneal structures, following the ascending colon, liver, and inferior vena cava. It's important to follow proper anatomical landmarks to understand their relationship in the body.
How can you trace a drop of blood from the ascending aorta to the right tonsil?
Basically your superior and inferior viena cava carry the blood to the heart…then it goes to the right atrium…from there it goes thru the tricuspid valve and then to the right ventricle, from there it goes thru the pulmonary valve then into the pulmonary artery and into the lungs and then to the alveolar sacks where the blood gets oxygenated… then back to the pulmonary vein and into the left atrium then thru the mighty mitral valve then to the left ventricle… then thru the aortic valve to the aorta then to arterioles then to the systemic capillaries…ultimately it can end where ever u want it to… big toe, tonsil, etc…
