All AP Biology Resources
Example Questions
Example Question #1 : Understanding Heart Anatomy
Placing a blood sample in a centrifuge will cause the blood to separate into three distinct sections. What is the order of the three sections from the top of the tube to the bottom?
Plasma, red blood cells, buffy coat
Plasma, buffy coat, red blood cells
Red blood cells, buffy coat, plasma
Buffy coat, plasma, red blood cells
Plasma, buffy coat, red blood cells
A centrifuge will organize a solution into distinct sections, separating them based on their density. The least dense sections will rise to the top, while the most dense compounds will settle at the bottom. Plasma is the least dense section, so it will rise to the top section in the tube. It will be followed by the buffy coat, and the dense red blood cells will settle at the bottom of the tube.
Plasma is composed mostly of water and proteins. The buffy coat contains most white blood cells and platelets.
Example Question #2 : Understanding Heart Anatomy
Which of the following structures connects the right atrium to the left atrium in fetal circulatory systems?
Ductus venosus
Ductus arteriosus
Pulmonic semilunar valve
Foramen ovale
Foramen ovale
The foramen ovale is needed to shunt blood away from the lungs, which are still developing in the fetus. The ductus venosus connects the umbilical vein to the inferior vena cava, while the ductus arteriosus connects the pulmonary artery to the aorta. The pulmonic semilunar valve is used in developed circulatory systems between the right ventricle and the pulmonary artery.
Example Question #3 : Understanding Heart Anatomy
Immediately after leaving the right ventricle, blood enters which structure of the circulatory system?
The pulmonary arteries
The aorta
The right atrium
The pulmonary veins
The left ventricle
The pulmonary arteries
When blood enters the heart from systemic circulation, it is first collected in the right atrium. It then passes through the tricuspid valve into the right ventricle. To understand where the blood travels next, we must remember that this blood is deoxygenated after its passage through the body; it must pass to the lungs for oxygenation. It does so by entering the pulmonary arteries, which carry the blood away from the heart to the lungs. The pulmonary veins later return the oxygenated blood to the left side of the heart.
Example Question #1 : Understanding Heart Anatomy
What is the function of heart valves?
Control the amount of pumped blood
Slow down blood flow
Mix blood thoroughly
Keep blood moving unidirectionally
Propel blood
Keep blood moving unidirectionally
The major function of heart valves between the chambers of the heart is to restrict blood flow to one direction. This unidirectional flow prevents backflow and mixing of blood between chambers. This allows blood to deliver nutrients and oxygen to the peripheral tissues, return carbon dioxide to the lungs, become reoxygenated in the lungs, and maintain the circulatory system cycle without traveling backward at any point in the process. The patterns of valve opening and closing ensure that the contraction of a chamber will only expel blood in one direction, rather than allowing it to exit from both opening in the chamber.
The amount of pumped blood, also known as cardiac output, is controlled by the strength and rate of heart contractions. Since the heart valves are not constructed from muscle, they are unable to contract and propel blood. The valves are passive structures composed of connective tissue.
Example Question #1 : Understanding Heart Anatomy
In order to pump blood efficiently, cardiac muscle cells on both the left and the right side of the heart must be stimulated simultaneously. Which of the following cellular junctions is credited with allowing cardiac muscle cells to pump simultaneously?
Adherens junctions
Desmosomes
Gap junctions
Tight junctions
Actin filaments
Gap junctions
Gap junctions allow the same action potential to be experienced by multiple neighboring cardiac muscle cells via electrical synapses. This simultaneous electrical stimulus allows for a more unified and powerful contraction by the heart.
Intercalated discs, a unique structure to cardiac muscle, also play a key role in synchronizing contraction.
Example Question #3 : Understanding Heart Anatomy
What is the name of the valve separating the right atrium from the right ventricle?
Mitral valve
None of these
Bicuspid valve
Tricuspid valve
Right semilunar valve
Tricuspid valve
The atria and ventricles of the heart are separated by two valves, one on each side of the heart. The left atrium and left ventricle is separated by the mitral valve, also known as the bicuspid valve. The right atrium and right ventricle is separated by the tricuspid valve, named for its three flaps that work together to form the valve.
The semilunar valves separate the aorta from the left ventricle and the pulmonary artery from the right ventricle. They are commonly called the "aortic valve" and "pulmonary valve."
Example Question #1 : Understanding Heart Anatomy
Blood pumped out of the heart circulates the body and returns to the heart. Which vessel connects directly to the right atrium?
Aorta
Carotid artery
Superior vena cava
Superior and inferior vena cavae
Inferior vena cava
Superior and inferior vena cavae
The right atrium receives blood that is returning to the heart from the body. The vena cavae are responsible for collecting the blood from the rest of the body and depositing it in this heart chamber. The superior vena cava collects blood from the head and upper extremities, while the inferior vena cava collects blood from the lower trunk and lower extremities.
The aorta is the artery that exits the left ventricle to deliver blood back to the body's tissues. The carotid artery carries blood to the head; the left branch is derived from the aorta, while the right branch is derived from the brachiocephalic artery.
Example Question #11 : Circulatory System
Which of the four heart chambers is the biggest and provides the greatest contractile force?
Right ventricle
Left atrium
Right atrium
Aorta
Left ventricle
Left ventricle
The left ventricle is the chamber responsible for pumping oxygen-rich blood throughout the entire system, as opposed to the right ventricle, which only pumps oxygen-poor blood to the lungs. This requires the cardiac muscle that makes up the walls of the left ventricle to be much thicker, and thus stronger, than that of the rest of the heart chambers.
Example Question #4 : Understanding Heart Anatomy
Which blood vessels supply oxygen-rich blood to the heart?
Aorta
Coronary veins
Superior vena cava
Coronary arteries
Pulmonary arteries
Coronary arteries
The coronary arteries supply blood to the heart. These vessels wrap around the heart muscle. Heart attacks often occur when these blood vessels become clogged, thus inhibiting blood flow to the heart, resulting in necrosis of cardiac cells. Note that the blood in the chambers of the heart is not involved in any nutrient exchange within the heart, rather, it must be pumped through capillaries where blood can supply nutrients to cells.
Example Question #11 : Understanding Heart Anatomy
What is the name of the blood vessels that return oxygen-rich blood to the heart?
Vena cavae
Aorta
Pulmonary arteries
Pulmonary veins
Brachial arteries
Pulmonary veins
Oxygen-poor blood leaves the heart towards the lungs via the pulmonary arteries and returns oxygen-rich blood from the lungs to the heart via the pulmonary veins. Any blood vessel that transports blood away from the heart is an artery. Any blood vessel that transports blood towards the heart is a vein.
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