Question 1

The function of the carbonic acid-bicarbonate buffer system in the blood is to _ .&#10;A) help stabilize arterial blood pH&#10;B) aid in expelling CO2 from the blood&#10;C) aid in the moving O2 into the blood

Accepted Answer

The carbonic acid-bicarbonate buffer system helps stabilize arterial blood pH by converting strong acids or bases into weaker ones, thus minimizing changes in pH. This is crucial for maintaining the narrow pH range necessary for proper physiological functions.

Question 2

Minute respiratory volume can be computed if one knows _ and .&#10;A) vital capacity; height&#10;B) inspiratory capacity; respiratory rate&#10;C) tidal volume; respiratory rate&#10;D) expiratory reserve volume; tidal volume

Accepted Answer

Minute respiratory volume (also known as minute ventilation) is calculated by multiplying the tidal volume (the volume of air inhaled or exhaled in a single breath during regular breathing) by the respiratory rate (the number of breaths taken per minute).

Question 3

The vital capacity, or maximal amount of air that one can move, is the sum of _.&#10;A) inspiratory reserve volume and functional residual capacity&#10;B) inspiratory capacity and residual volume&#10;C) inspiratory capacity and functional residual capacity&#10;D) inspiratory reserve volume, tidal volume, and expiratory reserve volume

Accepted Answer

Vital capacity is the total amount of air a person can expel from the lungs after a maximum inhalation. It includes the inspiratory reserve volume (the maximum amount of air that can be inhaled beyond the normal tidal volume), the tidal volume (the amount of air inhaled or exhaled during normal breathing), and the expiratory reserve volume (the maximum amount of air that can be exhaled beyond the normal tidal volume).

Question 4

Vesicular breath sounds may be heard .&#10;A) on the throat below the larynx&#10;B) at the triangle of auscultation&#10;C) over the sternum&#10;D) on the throat below the larynx, over the sternum, and at the triangle of auscultation

Accepted Answer

Vesicular breath sounds are normal breath sounds heard over the majority of the lung fields. The triangle of auscultation, an area of the back where the lung sounds are more easily heard due to the thinner layer of muscles, is a common place to hear these sounds clearly.

Question 5

During inspiration, the volume of the lungs _.&#10;A) decreases&#10;B) remains the same&#10;C) increases

Accepted Answer

During inspiration, the diaphragm contracts and moves downward, and the chest wall muscles contract and move outward, increasing the volume of the thoracic cavity and thus the lungs.

Question 6

To measure forced vital capacity (FVC) and forced expiratory volume (FEVT), the subject should .&#10;A) take a deep inspiration, then rapidly and forcefully exhale as much air as possible&#10;B) take a deep inspiration, then calmly and carefully exhale as much air as possible&#10;C) exhale as much air as possible, then inhale as much air as possible

Accepted Answer

To measure forced vital capacity (FVC) and forced expiratory volume (FEV), the subject needs to take a deep inspiration and then rapidly and forcefully exhale as much air as possible. This method is used to assess the amount of air a person can expel from their lungs and how quickly they can do it, which are critical parameters in respiratory function testing.

Question 7

To compute inspiratory reserve volume (IRV), one would need to know .&#10;A) tidal volume, vital capacity, and expiratory reserve volume&#10;B) vital capacity, and expiratory reserve volume&#10;C) tidal volume and vital capacity

Accepted Answer

Inspiratory Reserve Volume (IRV) is calculated by subtracting the sum of Tidal Volume (TV) and Expiratory Reserve Volume (ERV) from the Vital Capacity (VC). This is because IRV represents the additional air that can be forcibly inhaled after the inhalation of a normal tidal volume, which requires knowing the total lung capacity available (VC), the amount used during normal breathing (TV), and the extra amount that can be exhaled beyond normal (ERV).

Question 8

Vesicular breathing sounds probably result from .&#10;A) air filling the alveolar sacs&#10;B) air moving through the bronchioles&#10;C) air rushing through the large respiratory passageways

Accepted Answer

Vesicular breathing sounds are primarily due to air filling the alveolar sacs, as these sounds are typically heard over most of the lung surface and are characterized by a soft, low-pitched quality during inhalation.

Question 9

Hyperventilation causes a in the blood concentration of CO2, and thus the rate of respiration.&#10;A) increase; decrease&#10;B) decrease; increase&#10;C) increase; increase&#10;D) decrease; decrease

Accepted Answer

Hyperventilation leads to a decrease in the blood concentration of CO2 because you are exhaling more CO2 than usual. This decrease in CO2 concentration reduces the stimulus for breathing, leading to a decrease in the rate of respiration.

Question 10

Nervous system centers set the normal resting rate and depth of respiration. Which factors below can alter this normal respiratory rate and depth?&#10;A) exercise&#10;B) exercise, changes in blood CO2 levels, and changes in the pH of the blood&#10;C) changes in blood CO2 levels&#10;D) changes in the pH of the blood

Accepted Answer

Exercise, changes in blood CO2 levels, and changes in the pH of the blood can all alter the normal respiratory rate and depth. Exercise increases the demand for oxygen and the production of CO2, leading to increased respiration. Changes in blood CO2 levels and blood pH are closely monitored by the body; deviations from normal levels stimulate adjustments in respiration to maintain homeostasis.

Question 11

Carbon dioxide (CO) from tissue cells forms when combined with water. This compound dissociates into H+ and , and participates in an important buffering system in the blood.&#10;A) carbonic acid, CO3&#10;B) hydrochloric acid, bicarbonate ions&#10;C) carbonic acid, HCO3-&#10;D) hydrochloric acid, Cl-

Accepted Answer

The answer of Carbon dioxide (CO) from tissue cells forms...

Question 12

Once you have measured TV, IRV, and ERV, you can calculate all the following capacities except .&#10;A) functional residual capacity&#10;B) vital capacity&#10;C) inspiratory capacity

Accepted Answer

The answer of Once you have measured TV, IRV, and...

Question 13

After you measure TV and vital capacity, you must also calculate before you can determine total lung capacity.&#10;A) inspiratory volume&#10;B) residual volume&#10;C) expiratory reserve volume&#10;D) inspiratory capacity

Accepted Answer

The answer of After you measure TV and vital capacity,...

Question 14

These muscles are active during expiration.&#10;A) internal intercostals&#10;B) diaphragm&#10;C) external intercostals&#10;D) No muscles are active during quiet breathing; expiration is a passive process.

Accepted Answer

The answer of These muscles are active during expiration.&#10;A) internal...

Question 15

Inspiration is the time during which .&#10;A) air passes out of the lungs&#10;B) air is taken into the nasal passageways&#10;C) air passes from the alveoli into the conducting passageways&#10;D) air is taken into the lungs

Accepted Answer

The answer of Inspiration is the time during which .&#10;A)...

Question 16

Tidal volume is .&#10;A) the amount of air that can be forcefully exhaled after a normal exhalation&#10;B) the amount of air inhaled or exhaled with each resting breath&#10;C) the amount of air that can be forcefully inhaled after a normal inhalation&#10;D) the maximum amount of air that can be exhaled after a maximal inspiration

Accepted Answer

The answer of Tidal volume is .&#10;A) the amount of...

Question 17

An average value for vital capacity in healthy young adult males is .&#10;A) 6000 ml&#10;B) 500 ml&#10;C) 4800 ml&#10;D) 3000 ml

Accepted Answer

The answer of An average value for vital capacity in...

Question 18

The amount of air that can be forcefully exhaled after a normal tidal volume exhalation is called the .&#10;A) expiratory reserve&#10;B) inspiratory reserve&#10;C) vital capacity&#10;D) tidal volume

Accepted Answer

The answer of The amount of air that can be...

Question 19

In testing a patient who has tuberculosis, you would expect that the .&#10;A) FVC will be decreased&#10;B) FEVT will be decreased&#10;C) FEVT will be increased&#10;D) FVC will be increased

Accepted Answer

The answer of In testing a patient who has tuberculosis,...

Question 20

Select the correct sequence of events that occur during inspiration.&#10;A) Internal intercostals and diaphragm contract, size of thoracic cavity increases, gas pressure in the lungs decreases, air flows in.&#10;B) External intercostals and diaphragm contract, size of thoracic cavity increases, gas pressure in the lungs decreases, air flows in.&#10;C) Internal intercostals and diaphragm contract, gas pressure in the lungs decreases, size of thoracic cavity increases, air flows in.&#10;D) External intercostals and diaphragm contract, size of thoracic cavity increases, gas pressure in the lungs increases, air flows in.

Accepted Answer

The answer of Select the correct sequence of events that...

Deck 37: Respiratory System Physiology