Heart 2

Question 1

Depolarization of the atria corresponds
directly to the EKG’s
A.	P wave.
B.	QRS complex.
C.	QT interval.
D.	T wave.
E.	both A and D

Answer 1

A. P wave.

Question 2

\_\_\_\_\_ is to contraction as \_\_\_\_\_ is to
relaxation.
A.	Systole; diastole
B.	Diastole; systole
C.	Filling; relaxing
D.	Systole; filling
E.	both A and D

Answer 2

E. both A and D

Question 3

The structure that permits blood flow from
the right atrium to the left atrium while the
lungs are developing before birth is the
A.	foramen ovale.
B.	interatrial septum.
C.	coronary sinus.
D.	fossa ovalis.
E.	ligamentum arteriosis.

Answer 3

A. foramen ovale.

Question 4

The heart is innervated by \_\_\_\_\_ nerves.
A.	parasympathetic
B.	sympathetic
C.	both parasympathetic and sympathetic
D.	neither parasympathetic nor sympathetic

Answer 4

C. both parasympathetic and sympathetic

Question 5

The right ventricle pumps blood to the
A.	lungs.
B.	left ventricle.
C.	left atrium.
D.	systemic circuit.
E.	right atrium.

Answer 5

A. lungs.

Question 6

Increased venous blood flow to the right
atrium
A.	causes cells of the SA node to depolarize
faster.
B.	will result in increased heart rate.
C.	triggers the atrial (Bainbridge) reflex.
D.	all of the above
E.	B and C only

Answer 6

D. all of the above

Question 7

Blood leaves the right ventricle by passing
through the
A.	aortic valve.
B.	pulmonary valve.
C.	mitral valve.
D.	tricuspid valve.
E.	bicuspid valve.

Answer 7

B. pulmonary valve.

Question 8

The P wave of the ECG appears as the
A.	ventricles depolarize.
B.	atria depolarize.
C.	ventricles repolarize.
D.	atria repolarize.
E.	ventricles relax.

Answer 8

B. atria depolarize.

Question 9

Tetanic muscle contractions cannot occur
in a normal cardiac muscle cell because
A. cardiac muscle tissue contracts on its own.
B. there is no neural or hormonal stimulation.
C. the refractory period lasts until the muscle cell
relaxes.
D. the refractory period ends before the muscle
cell reaches peak tension.
E. none of the above

Answer 9

C. the refractory period lasts until the muscle

cell relaxes.

Question 10

The left ventricle pumps blood to the
A.	lungs.
B.	right ventricle.
C.	right atrium.
D.	systemic circuit.
E.	pulmonary circuit.

Answer 10

D. systemic circuit.

Question 11

The amount of blood that is forced out of
the heart depends on
A. the degree of stretching at the end of
ventricular diastole.
B. the contractility of the ventricle.
C. the amount of pressure required to eject
blood.
D. A and B only
E. A, B, and C

Answer 11

E. A, B, and C

Question 12

In cardiac muscle, the depolarization phase of
the action potential is the result of
A. increased membrane permeability to sodium ions.
B. increased membrane permeability to potassium ions.
C. decreased membrane permeability to calcium ions.
D. decreased membrane permeability to sodium ions.
E. increased membrane permeability to chloride ions.

Answer 12

A. increased membrane permeability to sodium ions.

Question 13

Drugs known as beta-blockers will
A.	increase heart rate.
B.	decrease heart rate.
C.	increase stroke volume.
D.	increase cardiac output.
E.	decrease the end-systolic volume.

Answer 13

B. decrease heart rate.

Question 14

The right atrium receives blood from the
A.	pulmonary veins.
B.	pulmonary trunk.
C.	aorta.
D.	inferior vena cava.
E.	conus arteriosus.

Answer 14

D. inferior vena cava.

Question 15

Cardiac muscle is similar to skeletal
muscle in the
A.	arrangement of the T-tubules.
B.	arrangement of the sarcoplasmic reticulum.
C.	presence of striations.
D.	presence of intercalated discs.
E.	both A and D

Answer 15

C. presence of striations.

Question 16

At an intercalated disc
A. the cell membranes of two cardiac muscle fibers are
completely separated by a synapse.
B. the myofibrils are loosely attached to the membrane
of the disc.
C. two cardiac muscle cells are connected by a gap
junction.
D. T-tubules unite the membranes of the adjoining cells.
E. both B and C

Answer 16

C. two cardiac muscle cells are connected by a gap

junction.

Question 17

During ventricular systole, the
A.	atria are contracting.
B.	blood is entering the ventricles.
C.	AV valves are closed.
D.	pressure in the ventricles declines.
E.	ventricles are relaxed.

Answer 17

C. AV valves are closed.

Question 18

The plateau phase of the cardiac muscle action
potential is due to
A. the movement of fewer sodium ions across the cell
membrane.
B. the calcium channels remaining open longer than the
sodium channels.
C. the increased membrane permeability to potassium
ion.
D. a decrease in the amount of calcium diffusing across
the membrane.
E. an increased membrane permeability to sodium ions.

Answer 18

B. the calcium channels remaining open longer than

the sodium channels.

Question 19

The atrioventricular valve on the side of
the heart that receives the superior vena
cava is the \_\_\_\_\_ valve.
A.	mitral
B.	bicuspid
C.	tricuspid
D.	pulmonary semilunar
E.	aortic semilunar

Answer 19

C. tricuspid

Question 20

The heart beats approximately \_\_\_\_\_
times each day.
A.	1,000
B.	10,000
C.	100,000
D.	1,000,000
E.	1,000,000,000

Answer 20

C. 100,000

Question 21

When the left ventricle contracts, the
distance from the apex to the base
A.	increases.
B.	decreases.
C.	remains unchanged.

Answer 21

B. decreases.

Question 22

When the left ventricle contracts, the
diameter of the ventricular chamber
A.	increases.
B.	decreases.
C.	remains the same.

Answer 22

B. decreases.

Question 23

In cardiac muscle
A. calcium ions are not released from the sarcoplasmic
reticulum.
B. calcium ions do not bind to troponin molecules.
C. calcium ions play no role in the process of
contraction.
D. at least half of the calcium ion required for
contraction comes from outside the cell.
E. calcium ions play an important role in repolarizing
the membrane after the depolarization phase.

Answer 23

D. at least half of the calcium ion required for

contraction comes from outside the cell.

Question 24

Blood leaving the right ventricle enters the
A.	pulmonary veins.
B.	pulmonary trunk.
C.	aorta.
D.	inferior vena cava.
E.	superior vena cava.

Answer 24

B. pulmonary trunk.

Question 25

The heart pumps approximately \_\_\_\_\_
liters of blood each day.
A.	8,000
B.	15,000
C.	20,000
D.	50,000
E.	100,000

Answer 25

A. 8,000

Question 26

As a result of the long refractory period,
cardiac muscle cannot exhibit
A.	tonus.
B.	treppe.
C.	tetany.
D.	recruitment.
E.	fatigue.

Answer 26

C. tetany.

Question 27

Which of the following is greater?
A. the concentration of calcium ions in the
sarcoplasmic reticulum of skeletal muscle
B. the concentration of calcium ions in the
sarcoplasmic reticulum of cardiac muscle

Answer 27

A. the concentration of calcium ions in the

sarcoplasmic reticulum of skeletal muscle

Question 28

The pacemaker cells of the heart are
located in the
A.	Purkinje fibers.
B.	SA node.
C.	AV node.
D.	wall of the left ventricle.
E.	both the left and right ventricles.

Answer 28

B. SA node.

Question 29

The pulmonary semilunar valve guards the
entrance to the
A.	aorta.
B.	pulmonary trunk.
C.	pulmonary veins.
D.	right ventricle.
E.	left ventricle.

Answer 29

B. pulmonary trunk.

Question 30

Drugs known as calcium channel blockers
can be used to
A.	decrease the force of cardiac contraction.
B.	increase blood pressure.
C.	constrict the coronary arteries.
D.	increase sympathetic stimulation of the
myocardium.
E.	increase stroke volume.

Answer 30

A. decrease the force of cardiac contraction.

Question 31

The heart is roughly the size of \_\_\_\_\_.
A.	a thigh.
B.	a man’s clenched fist.
C.	the gallbladder.
D.	the hand of a 10-year-old.
E.	none of the above

Answer 31

B. a man’s clenched fist.

Question 32

Enzymes that are found in blood following
a myocardial infarction include all of the
following, except
A.	LDH.
B.	ST-P.
C.	SGOT.
D.	MB-CK.
E.	CPK.

Answer 32

B. ST-P.

Question 33

The following are various components of the
conducting system of the heart.
1.	Purkinje fibers
2.	AV bundle
3.	AV node
4.	SA node
5.	bundle branches
The sequence in which an action potential would
move through this system is
A.	1, 4, 3, 2, 5.
B.	3, 2, 4, 5, 1.
C.	3, 5, 4, 2, 1.
D.	4, 3, 2, 5, 1.

Answer 33

D. 4, 3, 2, 5, 1.

Question 34

The bicuspid or mitral valve is located
A. in the opening of the aorta.
B. in the opening of the pulmonary trunk.
C. where the vena cavae join the right atrium.
D. between the right atrium and right ventricle.
E. between the left atrium and left ventricle.

Answer 34

E. between the left atrium and left ventricle

Question 35

When a clot forms on the plaque in a coronary
vessel and obstructs blood flow to the muscle,
the condition is referred to as a(n)
A.	angioplasty.
B.	myocardial infarction.
C.	coronary thrombosis.
D.	angina pectoris.
E.	pulmonary embolism.

Answer 35

C. coronary thrombosis.

Question 36

If you were to dissect a cadaver and cut a
midsagittal section through the trunk, it would
not divide the heart into equal halves because
A. the center of the base lies slightly to the left of the
midline.
B. a line drawn between the center of the base and the
apex points farther to the left.
C. the entire heart is rotated to the left around the center
line.
D. all of the above
E. none of the above

Answer 36

D. all of the above

Question 37

Which of the following is greater?
A. the number of action potentials per minute
spontaneously generated by the SA node
B. the number of action potentials per minute
spontaneously generated by the AV node
C. Neither is greater.

Answer 37

A. the number of action potentials per minute

spontaneously generated by the SA node

Question 38

Which of the following is greater during
left ventricular systole?
A.	the pressure in the ventricle
B.	the pressure in the aorta
C.	Neither is greater.

Answer 38

A. the pressure in the ventricle

Question 39

The entrance to the ascending aorta is
guarded by the \_\_\_\_\_ valve.
A.	atrioventricular
B.	semilunar
C.	bicuspid
D.	tricuspid
E.	mitral

Answer 39

B. semilunar

Question 40

The pace established by the SA node
depends on all the following, except the
A. extracellular concentration of potassium ion.
B. extracellular concentration of calcium ion.
C. temperature of the body.
D. type and amount of neurotransmitter present.
E. frequency of sympathetic and
parasympathetic action potentials.

Answer 40

E. frequency of sympathetic and

parasympathetic action potentials.