Deck 2: The Cardiorespiratory System

A) increased parasympathetic activity
B) increased sympathetic activity
C) decreased sympathetic activity
D) a combination of answers a and c

A) Frank-Starling mechanism
B) Law of LaPlace
C) Fick principle
D) Bohr effect

A) blood is diverted from the kidneys to exercising muscle
B) heart rate increases linearly with increases in work load
C) diastolic blood pressure will increase at the beginning of exercise and then level off
D) as exercise duration becomes prolonged, heart rate has a tendency to gradually increase

A) hemoglobin concentrations are reduced
B) pH levels are reduced
C) lactate concentrations are reduced
D) carbon dioxide levels are lowered to 20 mmHg

A) cardiac output and (a−v)O₂ difference
B) cardiac output and heart rate
C) heart rate and (a−v)O₂ difference
D) stroke volume and heart rate

A) cardiac morphological adaptation resulting from endurance training
B) increased wall thickness with a decrease in the internal diameter of the left ventricle
C) increased wall thickness with no change in the internal diameter of the left ventricle
D) increased internal diameter of the left ventricle

A) decreases in hematocrit are a result of plasma volume expansion
B) maximal heart rate will increase, but only after years of training
C) left ventricular mass is approximately 45% greater in highly trained athletes
D) resting bradycardia is often seen after prolonged endurance training

A) increases in cardiac output are generally seen after 8-10 weeks of training
B) walls of the left ventricle increase in size at the expense of internal diameter
C) walls of the left ventricle increase in size with no change in internal diameter
D) resting blood pressure become elevated

A) mitral valve
B) sinoatrial node
C) atrioventricular node
D) bundle of His

A) the combination of small surface area, fast rate of blood flow and thick layer of endothelial cells makes this an ideal place for gas exchange
B) the combination of large surface area, slow rate of blood flow and thin layer of endothelial cells makes this an ideal place for gas exchange
C) the combination of small surface area, slow rate of blood flow and thick layer of endothelial cells makes this an ideal place for gas exchange
D) the combination of large surface area, fast rate of blood flow and thick layer of endothelial cells makes this an ideal place for gas exchange

A) Frank-Starling mechanism
B) law of LaPlace
C) Fick principle
D) Bohr effect

A) law of LaPlace
B) Bohr Effect
C) Cardiac Drift
D) Valsalva Effect

A) an increase in blood pooling in the periphery is typically seen
B) heart rate will increase to compensate for the reduction in blood volume
C) cardiac output will remain the same despite the increase in heart rate
D) the evaporative cooling provided by increasing sweat rate serves to restore blood volume

A) lung volumes tend to decrease
B) red blood cell production tends to increase
C) hemoglobin concentrations tend to decrease
D) partial pressure of oxygen tends to increase