Circulation Questions and Answers
![Order: Eptifibatide (Integrilin) 180 mcg/kg IV stat.
The manufacturer recommends adding 0.7 mL of sterile water for injection to each 0.75 mg vial, yielding 0.75 mg/mL. The client weighs 185 pounds. How many milliliters will you administer?
Select one:
a. 20.2 mL
b. 44.4 mL
c. 202.8 mL
d. 11.4 mL](https://media.kunduz.com/media/sug-question/raw/57636669-1659273500.796961.jpeg?w=256)
Anatomy and Physiology
CirculationOrder: Eptifibatide (Integrilin) 180 mcg/kg IV stat.
The manufacturer recommends adding 0.7 mL of sterile water for injection to each 0.75 mg vial, yielding 0.75 mg/mL. The client weighs 185 pounds. How many milliliters will you administer?
Select one:
a. 20.2 mL
b. 44.4 mL
c. 202.8 mL
d. 11.4 mL
![Order: Pipracil (piperacillin sodium) 8 g/day IV in four divided doses q.6h.
The directions on the package insert state, "Add 4 mL suitable diluent (sterile water or 0.9% NaCl) to yield 1g/2.5mL." How many milliliters will you administer per dosage? The patient weighs 160 pounds.
Select one:
a. 0.8 mL
b. 5 mL
c. 3.2 mL
d. 20 mL](https://media.kunduz.com/media/sug-question/raw/57636895-1659273449.2320292.jpeg?w=256)
Anatomy and Physiology
CirculationOrder: Pipracil (piperacillin sodium) 8 g/day IV in four divided doses q.6h.
The directions on the package insert state, "Add 4 mL suitable diluent (sterile water or 0.9% NaCl) to yield 1g/2.5mL." How many milliliters will you administer per dosage? The patient weighs 160 pounds.
Select one:
a. 0.8 mL
b. 5 mL
c. 3.2 mL
d. 20 mL
![How is the majority of CO2 transported in the blood?
As bicarbonate
Attached to hemoglobin
Dissolved in the plasma
Attached to platelets](https://media.kunduz.com/media/sug-question/raw/84770204-1659265855.4644055.jpeg?w=256)
Anatomy and Physiology
CirculationHow is the majority of CO2 transported in the blood?
As bicarbonate
Attached to hemoglobin
Dissolved in the plasma
Attached to platelets
![Which of the following factors will enhance oxygen unloading from hemoglobin? (More than one answer is correct, partial credit will be given):
Increased tissue CO2
Decreased tissue BPG
Increased tissue heat
Decreased tissue pH
Increased tissue oxygen
Decreased tissue CO2
Increased tissue acidity
Decreased tissue oxygen](https://media.kunduz.com/media/sug-question/raw/84770276-1659265317.2928889.jpeg?w=256)
Anatomy and Physiology
CirculationWhich of the following factors will enhance oxygen unloading from hemoglobin? (More than one answer is correct, partial credit will be given):
Increased tissue CO2
Decreased tissue BPG
Increased tissue heat
Decreased tissue pH
Increased tissue oxygen
Decreased tissue CO2
Increased tissue acidity
Decreased tissue oxygen
![Stimuli for the activation of the Renin-
Angiotensin (RAS) pathway include
low blood pressure in arterioles in the nephron
only.
a decrease in fluid flow through the distal
tubule only.
high blood pressure in the renal artery only.
low blood pressure in arterioles in the nephron
and a decrease in fluid flow through the distal
tubule.
low blood pressure in arterioles in the nephron,
a decrease in fluid flow through the distal
tubule, and high blood pressure in the renal
artery.](https://media.kunduz.com/media/sug-question/raw/84714178-1659121740.350585.jpeg?w=256)
Anatomy and Physiology
CirculationStimuli for the activation of the Renin-
Angiotensin (RAS) pathway include
low blood pressure in arterioles in the nephron
only.
a decrease in fluid flow through the distal
tubule only.
high blood pressure in the renal artery only.
low blood pressure in arterioles in the nephron
and a decrease in fluid flow through the distal
tubule.
low blood pressure in arterioles in the nephron,
a decrease in fluid flow through the distal
tubule, and high blood pressure in the renal
artery.
![Using your estimate of alveolar Pco2 estimate the pH of the blood plasma in the lungs just before the subject exhaled. See the table on page 9](https://media.kunduz.com/media/sug-question/raw/84714211-1659121212.7772892.jpeg?w=256)
Anatomy and Physiology
CirculationUsing your estimate of alveolar Pco2 estimate the pH of the blood plasma in the lungs just before the subject exhaled. See the table on page 9
![Using this estimate of blood pH, how much correction of blood pH seems to be possible by respiratory compensation alone?](https://media.kunduz.com/media/sug-question/raw/84714214-1659120866.1773386.jpeg?w=256)
Anatomy and Physiology
CirculationUsing this estimate of blood pH, how much correction of blood pH seems to be possible by respiratory compensation alone?
![The cardiac cycle is:
When the atria are contracting
When the ventricles are relaxed
All the events involved with a single heart beat
When the atria are relaxed
When the ventricles are contracting](https://media.kunduz.com/media/sug-question/raw/84730021-1659119073.1682928.jpeg?w=256)
Anatomy and Physiology
CirculationThe cardiac cycle is:
When the atria are contracting
When the ventricles are relaxed
All the events involved with a single heart beat
When the atria are relaxed
When the ventricles are contracting
![If the SA node is nonfunctional, which of the following is most likely to occur?
The heart will go into defibrillation.
The heart will go into asystole (stop).
The heart will be desensitized.
Another portion of the heart will become the pacemaker.
Tachycardia will develop.](https://media.kunduz.com/media/sug-question/raw/84729953-1659119066.4809384.jpeg?w=256)
Anatomy and Physiology
CirculationIf the SA node is nonfunctional, which of the following is most likely to occur?
The heart will go into defibrillation.
The heart will go into asystole (stop).
The heart will be desensitized.
Another portion of the heart will become the pacemaker.
Tachycardia will develop.
![This is the longest vein, and portions of this vein are commonly used as grafts in
coronary bypass surgery.
the common iliac vein
the great saphenous vein
the femoral vein
the inferior vena cava
the deep femoral vein](https://media.kunduz.com/media/sug-question/raw/84730187-1659119044.5212982.jpeg?w=256)
Anatomy and Physiology
CirculationThis is the longest vein, and portions of this vein are commonly used as grafts in
coronary bypass surgery.
the common iliac vein
the great saphenous vein
the femoral vein
the inferior vena cava
the deep femoral vein
![During ventricular diastole:
The semilunar valves close and the AV valves open
Only the AV valves close
Only the semilunar valves close
The semilunar valves open and the AV valves close
Only the AV valves open](https://media.kunduz.com/media/sug-question/raw/84730247-1659113929.9982398.jpeg?w=256)
Anatomy and Physiology
CirculationDuring ventricular diastole:
The semilunar valves close and the AV valves open
Only the AV valves close
Only the semilunar valves close
The semilunar valves open and the AV valves close
Only the AV valves open
![Which of the following is NOT a granular leukocyte?
Basophil
Neutrophil
Monocyte
Eosinophil](https://media.kunduz.com/media/sug-question/raw/84694552-1658963954.3481917.jpeg?w=256)
Anatomy and Physiology
CirculationWhich of the following is NOT a granular leukocyte?
Basophil
Neutrophil
Monocyte
Eosinophil
![Which type of leukocyte will enlarge in the tissues and become macrophages?
Neutrophils
Eosinophils
Monocytes
Lymphocytes](https://media.kunduz.com/media/sug-question/raw/84694567-1658963910.6108608.jpeg?w=256)
Anatomy and Physiology
CirculationWhich type of leukocyte will enlarge in the tissues and become macrophages?
Neutrophils
Eosinophils
Monocytes
Lymphocytes
![What type of cells do platelets come from?
NK cells
Myeloblasts
Megakaryocytes
Reticulocytes](https://media.kunduz.com/media/sug-question/raw/84694570-1658963896.7015636.jpeg?w=256)
Anatomy and Physiology
CirculationWhat type of cells do platelets come from?
NK cells
Myeloblasts
Megakaryocytes
Reticulocytes
![A positive coagulase tube would appear liquid
True
False](https://media.kunduz.com/media/sug-question/raw/84695096-1658963682.1291673.jpeg?w=256)
![What type of tumor can occur anywhere in the body?
A. a neuroblastoma
B. a lymph tumor
C. a brain tumor](https://media.kunduz.com/media/sug-question/raw/84700263-1658942786.5229952.jpeg?w=256)
Anatomy and Physiology
CirculationWhat type of tumor can occur anywhere in the body?
A. a neuroblastoma
B. a lymph tumor
C. a brain tumor
![If the membranes of the cardiac muscle cells in the SA node become more permeable to potassium ions,
the membrane will depolarize.
stroke volume will increase.
heart rate will decrease.
intracellular concentration of calcium ion will increase.
heart rate will increase.](https://media.kunduz.com/media/sug-question/raw/84676241-1658876005.4102871.jpeg?w=256)
Anatomy and Physiology
CirculationIf the membranes of the cardiac muscle cells in the SA node become more permeable to potassium ions,
the membrane will depolarize.
stroke volume will increase.
heart rate will decrease.
intracellular concentration of calcium ion will increase.
heart rate will increase.
![Which stimulus(stimuli) will activate production and release of erythropoietin?
All of the choices are correct.
Low amount of hemoglobin
B and C only
Decreased blood oxygen levels
Low RBC count](https://media.kunduz.com/media/sug-question/raw/84676295-1658875186.0812578.jpeg?w=256)
Anatomy and Physiology
CirculationWhich stimulus(stimuli) will activate production and release of erythropoietin?
All of the choices are correct.
Low amount of hemoglobin
B and C only
Decreased blood oxygen levels
Low RBC count
![The --------- the diameter of a vessel, the faster the velocity of blood flow.
A. smaller
B. larger](https://media.kunduz.com/media/sug-question/raw/84657261-1658874932.0589986.jpeg?w=256)
Anatomy and Physiology
CirculationThe --------- the diameter of a vessel, the faster the velocity of blood flow.
A. smaller
B. larger
![Gap junctions are found at the dark-staining ------- between cardiac myocytes.
A fasciae adherens
B. functional syncytium
C. mitochondria
D. sarcoplasmic reticulum
E. intercalated disks](https://media.kunduz.com/media/sug-question/raw/84657445-1658874889.3445125.jpeg?w=256)
Anatomy and Physiology
CirculationGap junctions are found at the dark-staining ------- between cardiac myocytes.
A fasciae adherens
B. functional syncytium
C. mitochondria
D. sarcoplasmic reticulum
E. intercalated disks
![The ORDER of structures encountered by a RBC returning from the lungs to the heart would be:
A. pulmonary veins, left atrium, left AV valve, left ventricle, pulmonary valve, pulmonary trunk
B. pulmonary veins, left atrium, left AV valve, left ventricle, aortic valve, aorta
C, pulmonary veins, left atrium, aortic valve, left ventricle, left AV valve, aorta
D. pulmonary arteries, left atrium, left AV valve, left ventricle, aortic valve, aorta](https://media.kunduz.com/media/sug-question/raw/84657633-1658874836.1383412.jpeg?w=256)
Anatomy and Physiology
CirculationThe ORDER of structures encountered by a RBC returning from the lungs to the heart would be:
A. pulmonary veins, left atrium, left AV valve, left ventricle, pulmonary valve, pulmonary trunk
B. pulmonary veins, left atrium, left AV valve, left ventricle, aortic valve, aorta
C, pulmonary veins, left atrium, aortic valve, left ventricle, left AV valve, aorta
D. pulmonary arteries, left atrium, left AV valve, left ventricle, aortic valve, aorta
![Plasma minus the clotting factors equals?
A. Antibodies
B. Serum
C. Platelets
D. Hematocrit](https://media.kunduz.com/media/sug-question/raw/84656060-1658874687.7176502.jpeg?w=256)
Anatomy and Physiology
CirculationPlasma minus the clotting factors equals?
A. Antibodies
B. Serum
C. Platelets
D. Hematocrit
![What tissue is found in the tunica media of a blood vessel?
A. Cardiac muscle
B. Smooth muscle
C. Endothelium
D. Glandular mucosa
E. Skeletal muscle](https://media.kunduz.com/media/sug-question/raw/84656039-1658747569.9104507.jpeg?w=256)
Anatomy and Physiology
CirculationWhat tissue is found in the tunica media of a blood vessel?
A. Cardiac muscle
B. Smooth muscle
C. Endothelium
D. Glandular mucosa
E. Skeletal muscle
![Which part of the cardiac conduction system is the pacemaker of the heart?
Perkinje fibers
AV node
Bundle of His
SA node
Left and right bundle branches](https://media.kunduz.com/media/sug-question/raw/84655945-1658747435.431836.jpeg?w=256)
Anatomy and Physiology
CirculationWhich part of the cardiac conduction system is the pacemaker of the heart?
Perkinje fibers
AV node
Bundle of His
SA node
Left and right bundle branches
![Which of the following vessels contain valves?
Arterioles
Veins
Arteries
Capillaries](https://media.kunduz.com/media/sug-question/raw/84655883-1658747393.3501692.jpeg?w=256)
Anatomy and Physiology
CirculationWhich of the following vessels contain valves?
Arterioles
Veins
Arteries
Capillaries
![The 3 vessels that arise from the arch of the aorta, in order, are the:
, and](https://media.kunduz.com/media/sug-question/raw/84655779-1658747364.8453457.jpeg?w=256)
Anatomy and Physiology
CirculationThe 3 vessels that arise from the arch of the aorta, in order, are the:
, and
![Which of the following acts as a shunt, allowing freshly oxygenated blood to bypass the fetal liver and flow directly into the inferior vena cava?
Foramen ovale
Ductus arteriosus
Ductus venosus
Ductus livermentum](https://media.kunduz.com/media/sug-question/raw/84655677-1658747306.6981664.jpeg?w=256)
Anatomy and Physiology
CirculationWhich of the following acts as a shunt, allowing freshly oxygenated blood to bypass the fetal liver and flow directly into the inferior vena cava?
Foramen ovale
Ductus arteriosus
Ductus venosus
Ductus livermentum
![Flow through the heart and lungs as a red blood cell, beginning in the Vena Cava and ending in the systemic circulation.
Please include all vessels, chambers and valves along the way.
Superior and Inferior Vena Cava ➡Lungs➡ Systemic circulation](https://media.kunduz.com/media/sug-question/raw/84655608-1658747265.345256.jpeg?w=256)
Anatomy and Physiology
CirculationFlow through the heart and lungs as a red blood cell, beginning in the Vena Cava and ending in the systemic circulation.
Please include all vessels, chambers and valves along the way.
Superior and Inferior Vena Cava ➡Lungs➡ Systemic circulation
![Miguel is a 25-year-old jogger with a target heart rate of 125 bpm. His resting pulse is 70 bpm. His blood volume is approximately 6.8 liters. At rest, his cardiac output is 6.3 liters/min.
A. What must his stroke volume be?
B. What might his EDV and ESV be?
C. During his workout, his heart rate increases to 125 bpm and his cardiac output to
12,500 mL/min. Do his SV, EDV, and ESV change with exercise?](https://media.kunduz.com/media/sug-question/raw/84635139-1658611249.2233326.jpeg?w=256)
Anatomy and Physiology
CirculationMiguel is a 25-year-old jogger with a target heart rate of 125 bpm. His resting pulse is 70 bpm. His blood volume is approximately 6.8 liters. At rest, his cardiac output is 6.3 liters/min.
A. What must his stroke volume be?
B. What might his EDV and ESV be?
C. During his workout, his heart rate increases to 125 bpm and his cardiac output to
12,500 mL/min. Do his SV, EDV, and ESV change with exercise?
![If blood pressure doubled at the same time that the peripheral resistance doubled, the blood flow through a vessel would be
halved.
doubled.
1/16 as much.
16 times greater.
unchanged.](https://media.kunduz.com/media/sug-question/raw/84635104-1658611229.1699288.jpeg?w=256)
Anatomy and Physiology
CirculationIf blood pressure doubled at the same time that the peripheral resistance doubled, the blood flow through a vessel would be
halved.
doubled.
1/16 as much.
16 times greater.
unchanged.
![Put these phases of the cardiac cycle in the correct order.
1. opening of the semilunar valves
2. isovolumic contraction
3. beginning of atrial systole
4. closure of the AV valves
5. completion of ventricular filling
6. beginning of ventricular systole
7. ventricular relaxation
8. ventricular ejection
3, 5, 6, 4, 2, 1, 8, 7
3, 5, 6, 1, 8, 4, 2, 7
3, 2, 6, 1, 4, 5, 8, 7
3, 2, 6, 4, 5, 8, 7, 1
4, 5, 1, 2, 7, 8, 3, 6](https://media.kunduz.com/media/sug-question/raw/84635127-1658611180.0807607.jpeg?w=256)
Anatomy and Physiology
CirculationPut these phases of the cardiac cycle in the correct order.
1. opening of the semilunar valves
2. isovolumic contraction
3. beginning of atrial systole
4. closure of the AV valves
5. completion of ventricular filling
6. beginning of ventricular systole
7. ventricular relaxation
8. ventricular ejection
3, 5, 6, 4, 2, 1, 8, 7
3, 5, 6, 1, 8, 4, 2, 7
3, 2, 6, 1, 4, 5, 8, 7
3, 2, 6, 4, 5, 8, 7, 1
4, 5, 1, 2, 7, 8, 3, 6
![The ECG of a person with complete heart block would show
an inverted P wave.
an increased PR interval.
no visible T wave.
a smaller QRS complex.
more P waves than QRS complexes per minute.](https://media.kunduz.com/media/sug-question/raw/84635123-1658611165.6625628.jpeg?w=256)
Anatomy and Physiology
CirculationThe ECG of a person with complete heart block would show
an inverted P wave.
an increased PR interval.
no visible T wave.
a smaller QRS complex.
more P waves than QRS complexes per minute.
![The ejection fraction (EF) typically refers to the amount of blood pumped out of the left ventricle each time it contracts (as measured by doing echocardiogram.) It is expressed as a percentage of the ratio of stroke volume to the end-diastolic volume as follows: EF = Stroke Volume / End-Diastolic Volume. Please answer the question that follows: The ejection fraction for an individual whose stroke volume is 44 ml, and end- diastolic volume is 110 ml of blood, would be _. This would meet the body's demand for blood flow. 40%; inadequately 75%; adequately 60%; adequately 10%; inadequately](https://media.kunduz.com/media/sug-question/raw/84636517-1658605488.2471666.jpeg?w=256)
Anatomy and Physiology
CirculationThe ejection fraction (EF) typically refers to the amount of blood pumped out of the left ventricle each time it contracts (as measured by doing echocardiogram.) It is expressed as a percentage of the ratio of stroke volume to the end-diastolic volume as follows: EF = Stroke Volume / End-Diastolic Volume. Please answer the question that follows: The ejection fraction for an individual whose stroke volume is 44 ml, and end- diastolic volume is 110 ml of blood, would be _. This would meet the body's demand for blood flow. 40%; inadequately 75%; adequately 60%; adequately 10%; inadequately
![Inducing hypocapnia via hyperventilation reduces the partial pressure of arterial carbon dioxide (PaCO2), which can cause dizziness due to a decrease in cerebral blood flow. The decreased blood flow is caused by decreased stroke volume decreased respiration vasodilation vasoconstriction](https://media.kunduz.com/media/sug-question/raw/84636431-1658605425.9793863.jpeg?w=256)
Anatomy and Physiology
CirculationInducing hypocapnia via hyperventilation reduces the partial pressure of arterial carbon dioxide (PaCO2), which can cause dizziness due to a decrease in cerebral blood flow. The decreased blood flow is caused by decreased stroke volume decreased respiration vasodilation vasoconstriction
![A blood pressure measurement consists of two numbers: the systolic pressure, which is the maximum pressure taken when the heart is contracting, and the diastolic pressure, which is the minimum pressure taken at the beginning of the heartbeat. Blood pressures were measured, in millimeters, for a sample of 10 adults. The following table presents the results.](https://media.kunduz.com/media/sug-question/raw/84540436-1658592547.3358238.jpeg?w=256)
Anatomy and Physiology
CirculationA blood pressure measurement consists of two numbers: the systolic pressure, which is the maximum pressure taken when the heart is contracting, and the diastolic pressure, which is the minimum pressure taken at the beginning of the heartbeat. Blood pressures were measured, in millimeters, for a sample of 10 adults. The following table presents the results.
![Which category of drugs does not increase your risk of contracting HIV through infected needles?
A narcotics
B. inhalants
C. stimulants](https://media.kunduz.com/media/sug-question/raw/84548724-1658592267.600202.jpeg?w=256)
Anatomy and Physiology
CirculationWhich category of drugs does not increase your risk of contracting HIV through infected needles?
A narcotics
B. inhalants
C. stimulants
![What happens to ventricular volume during isovolumic ventricular contraction?](https://media.kunduz.com/media/sug-question/raw/84525894-1658055837.4301672.jpeg?w=256)
Anatomy and Physiology
CirculationWhat happens to ventricular volume during isovolumic ventricular contraction?
![What happens to ventricular pressure during isovolumic ventricular contraction?](https://media.kunduz.com/media/sug-question/raw/84525895-1658055809.2778203.jpeg?w=256)
Anatomy and Physiology
CirculationWhat happens to ventricular pressure during isovolumic ventricular contraction?
![Hematocrit is the:
A. Percentage of red blood cells in the blood
B. Percentage of white blood cells in the blood
C. Percentage of platelets in the blood
D. Percentage of leukocytes in the blood](https://media.kunduz.com/media/sug-question/raw/84517660-1658012158.7448165.jpeg?w=256)
Anatomy and Physiology
CirculationHematocrit is the:
A. Percentage of red blood cells in the blood
B. Percentage of white blood cells in the blood
C. Percentage of platelets in the blood
D. Percentage of leukocytes in the blood
![The majority of blood is made up of:
A. White blood cells
B. Red blood cells
C. Water
D. Proteins](https://media.kunduz.com/media/sug-question/raw/84517652-1658011770.9774418.jpeg?w=256)
Anatomy and Physiology
CirculationThe majority of blood is made up of:
A. White blood cells
B. Red blood cells
C. Water
D. Proteins
![Which of the flowing is the most abundant white blood cell?
OA. Eosinophil
B. Neutrophil
C. Monocyte
D. Lymphocyte](https://media.kunduz.com/media/sug-question/raw/84518144-1658011737.5706947.jpeg?w=256)
Anatomy and Physiology
CirculationWhich of the flowing is the most abundant white blood cell?
OA. Eosinophil
B. Neutrophil
C. Monocyte
D. Lymphocyte
![Which is a characteristic of a normal red blood cell?
A. Lots of hemoglobin
B. Increased mitochondr
C. Sickle shape
D. A large nucleus](https://media.kunduz.com/media/sug-question/raw/84518164-1658011313.01953.jpeg?w=256)
Anatomy and Physiology
CirculationWhich is a characteristic of a normal red blood cell?
A. Lots of hemoglobin
B. Increased mitochondr
C. Sickle shape
D. A large nucleus
![Amy's blood was determined to be AB positive. What does this mean?
A. There are no antibodies to neither A, B or Rh antigens in her plasma
B. Antibodies to the A and B antigens are present on the surface of the blood cell
C. Her red blood cells lack the Rh antigen
D. She can only receive blood from a donor who is AB positive](https://media.kunduz.com/media/sug-question/raw/84518179-1658010985.0936036.jpeg?w=256)
Anatomy and Physiology
CirculationAmy's blood was determined to be AB positive. What does this mean?
A. There are no antibodies to neither A, B or Rh antigens in her plasma
B. Antibodies to the A and B antigens are present on the surface of the blood cell
C. Her red blood cells lack the Rh antigen
D. She can only receive blood from a donor who is AB positive
![A white blood cell that contains and releases histamine to promote the inflammatory reaction is called:
A. Basophil
B. Lymphocyte
C. Monocyte
D. Eosinophil](https://media.kunduz.com/media/sug-question/raw/84518216-1658010864.5366652.jpeg?w=256)
Anatomy and Physiology
CirculationA white blood cell that contains and releases histamine to promote the inflammatory reaction is called:
A. Basophil
B. Lymphocyte
C. Monocyte
D. Eosinophil
![Which is a characteristic of a leukocyte?
A. It does not have nucleus
B. It contains hemoglobin
C. It may contain granules
D. It carries oxygen and carbon dioxide](https://media.kunduz.com/media/sug-question/raw/84518202-1658010492.3179743.jpeg?w=256)
Anatomy and Physiology
CirculationWhich is a characteristic of a leukocyte?
A. It does not have nucleus
B. It contains hemoglobin
C. It may contain granules
D. It carries oxygen and carbon dioxide
![The chamber of the heart that receives blood high in oxygen content is the:
A. Right atrium
B. Left atrium
C. Left ventricle
D. Right ventricle](https://media.kunduz.com/media/sug-question/raw/84518260-1658010352.2849224.jpeg?w=256)
Anatomy and Physiology
CirculationThe chamber of the heart that receives blood high in oxygen content is the:
A. Right atrium
B. Left atrium
C. Left ventricle
D. Right ventricle
![An individual who is blood type AB negative:
A. Can donate to all blood types
B. Can receive any blood type except that with the Rh antigen
OC.Can receive types A, B, and AB but not O blood
D. Can donate to types A, B, and AB but not to type O](https://media.kunduz.com/media/sug-question/raw/84518227-1658010219.1935933.jpeg?w=256)
Anatomy and Physiology
CirculationAn individual who is blood type AB negative:
A. Can donate to all blood types
B. Can receive any blood type except that with the Rh antigen
OC.Can receive types A, B, and AB but not O blood
D. Can donate to types A, B, and AB but not to type O
![The fossa ovalis is located in the:
A. Interatrial septum
B. Interventricular septum
C. Atrioventricular septum
D. Apex of the heart](https://media.kunduz.com/media/sug-question/raw/84519156-1658009946.513275.jpeg?w=256)
Anatomy and Physiology
CirculationThe fossa ovalis is located in the:
A. Interatrial septum
B. Interventricular septum
C. Atrioventricular septum
D. Apex of the heart
![Blood within the pulmonary veins returns to the:
A. Left atrium
B. Right atrium
C. Left ventricle
D. Right ventricle](https://media.kunduz.com/media/sug-question/raw/84519164-1658009644.4564114.jpeg?w=256)
Anatomy and Physiology
CirculationBlood within the pulmonary veins returns to the:
A. Left atrium
B. Right atrium
C. Left ventricle
D. Right ventricle
![There is a semilunar valve located between the:
A. Right ventricle and the pulmonary trunck
B. Left ventricle and the pulmonary trunk
C. Left atrium and the left ventricle
D. Right ventricle and the aorta
E. Right atrium and right ventricle](https://media.kunduz.com/media/sug-question/raw/84519176-1658009596.1941774.jpeg?w=256)
Anatomy and Physiology
CirculationThere is a semilunar valve located between the:
A. Right ventricle and the pulmonary trunck
B. Left ventricle and the pulmonary trunk
C. Left atrium and the left ventricle
D. Right ventricle and the aorta
E. Right atrium and right ventricle