the blood goes through the arteries, blood viens, and heart in which goes down to your stomach.
heart-asc aorta-aortic arch-descending aorta-abdominal aorta-celiac trunk-gastric artery (then gas exchange happens and it goes up the gastric veins and hephatic portal vein
for the head from the heart you will go to the common carotid arteries then the internal or eternal carotid depending on where you are headed this is where you will have to figure out the circle of willis.
occipital- asc aorta-aortic arch-brachiocephalic artery-common carotid-internal carotid-posterior communicating artery-posterior cerebral artery-gas exchange-(occipital) then you go back via the veins making sure you hit up the dural sinuses
Vena cava goes to the right atrium through the bicuspid valve to the right ventricle through the pulmonary semilunar valve to the pulmonary artery to the lungs to the pulmonary vein to the left atrium through the mitral valve to the left ventricle to the aorta.
Blood enters the heart into the right atrium via the superior and inferior vena cavae and the coronary sinus (collects blood returning from the coronary and cardiac vasculature). Blood is then pumped into the left ventricle through the tricuspid valve. The left ventricle contracts and passes the blood through the pulmonary valve and out to the lungs via the pulmonary arteries. In the lungs blood is oxygenated and returns to the heart via pulmonary veins leading to the left atrium. Blood then enters the muscular left ventricle from the left atrium by passing through the bicuspid (mitral) valve. The left ventricle can then contract to send out blood past the aortic valve for systemic distribution through the aorta.
Blood enters the heart through the vena
cava.
It then enters the right ventricle through the tricuspid
valve and comes out of the heart through the pulmonary artery. The blood travel through the lungs then back to the heart through the pulmonary vein. The blood then goes to the left atrium. From there it travels down the left ventricle then into the aorta. The aorta then pumps the blood into the body.
Blood returning from the tissues enters the right atrium, and is moved to the right ventricle. From there, blood travels through the pulmonary artery to the lungs where it picks up oxygen. Blood returns from the lungs through the pulmonary vein to the left atrium, left ventricle, and aorta.
body, right atrium, right ventricle, lungs, left atrium, left ventricle, body.
the pathway of blood to the heart is the blood vessels
arteries and veins
it pumps
The general blood flow path is from the aorta to the heart. The blood will then leave the heart and flow throughout the rest of the body. This path of blood happens every time the heart beats.
From the vena cava, blood travels into the right atrium, then the right ventricle. The right ventricle pumps the blood through the pulmonary arteries to the lungs. The pulmonary vein carries the oxygenated blood back to the left atrium. The blood flows from the left atrium into the left ventricle which pumps the blood through the aorta and to the rest of the body.
It pumps it around the body, the right atrium pumps blood to the lungs.
The path followed by the blood when it supplies and drains the heart muscle
Right Femoral Artery -> Right External Iliac Artery -> Right Common Iliac Artery -> Abdominal Aorta -> Aorta -> Right Coronary Artery I think below is a better answer: R Femoral A. > R Ext. Iliac > R Common Iliac > Abdominal Aorta> Thoracic Aorta > Aortic Arch
pumping
its mainly aorta and sub-divided artery is caroted artery
The general blood flow path is from the aorta to the heart. The blood will then leave the heart and flow throughout the rest of the body. This path of blood happens every time the heart beats.
Tortuous aorta is a pathological condition where the aorta has an irregular shape, usually contorted, and can affect blood flow coming out of the heart and to the body tissues.
Trace a drop of blood from the left knee to the right arm
left atrium -> left ventricle -> aorta -> renal artery -> renal vein -> inferior vena cava -> right atrium -> right ventricle
It would have to transverse the entire cardiovascular system to do that.
The circulatory system is like a circle, so there is no real beginning or end. So when you describe it, you could start where ever you want. People often start in the heart, but you could start anywhere along the path. Here is a very simplified path through the circulatory system: Right heart to lungs to left heart to arteries to capillaries to veins and back to right heart.
sinus venosus > atrium > ventricle > bulbus arteriosus > ventral aorta > afferent branchial artery > gills > efferent branchial artery > aorta
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
the deoxygenated blood from the kidneys is carried by venules which combine to form veins. These veins then bring the deoxygenated blood to the heart via. the anterior and superior vena cava. This blood is then poured to right atrium of heart and it is then passed to right ventricle via. tricuspid valve.
Trick question! It is a series of arteries that carries the blood from the heart to the tail. The veins return the blood from the tail back to the heart. The blood travels the majority of the distance down the body's primary artery, the aorta. From there, there is a significant amount of branching. For example, one path involves - aorta to internal iliac artery to caudal gluteal artery to the lateral caudal artery - Another path involves - aorta to median sacral artery - BUT the tail is also supplied by Dorsal lateral caudal artery, Ventral lateral caudal artery, and Median caudal artery. The entire meshwork of vessles do not exist as individuals all to themselves but overlap through a process known as collateral circulation.