NCLEX : General Biology

Study concepts, example questions & explanations for NCLEX

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Example Questions

Example Question #4 : Respiratory System

What nerve innervates the diaphragm (necessary for normal inhalation)?

Possible Answers:

The phrenic nerve

The intercostal nerve

The vagus nerve

The subcostal artery

Correct answer:

The phrenic nerve

Explanation:

The diaphragm is innervated by the phrenic nerve. This nerve exits the spine at C3-C5. In the case of spinal cord trauma, if injury occurs above C3, the diaphragm is no longer able to function on its own and breathing assistance is generally required.

Example Question #1 : Respiratory System

Which of the following terms describes the maximum volume of air a person can exhale after maximum inhalation?

Possible Answers:

Residual volume

Vital capacity

Functional residual capacity

None of these

Correct answer:

Vital capacity

Explanation:

Vital capacity is the maximum volume of air a person can exhale after maximum inhalation. Residual volume is the air that remains in the lung after forced exhalation, while functional residual capacity is the volume of air that remains in the lung after a relaxed exhalation. 

Example Question #11 : Lung And Alveoli

In the average adult, how much air remains in the dead space of the lung after normal expiration?

Possible Answers:

Correct answer:

Explanation:

Dead space is the volume of air that remains in the trachea, bronchi, and bronchioles during respiration. It does not enter the alveoli and so does not participate in gas exchange. In the average adult, the amount of air left in the dead space after expiration is

Example Question #12 : Lung And Alveoli

What is the average volume of air breathed into and out of the respiratory system during tidal breathing?

Possible Answers:

Correct answer:

Explanation:

Tidal breathing is the term for relaxed inhalation and exhalation (as opposed to maximum inspiration and forced exhalation). The average volume of air breathed into and out of the respiratory system during tidal breathing is

Example Question #13 : Respiratory System

Which of the following would cause bronchioconstriction?

Possible Answers:

Allergens

All of these cause bronchioconstriction

Cold air 

Parasympathetic imput

Correct answer:

All of these cause bronchioconstriction

Explanation:

There are many factors that can cause bronchioconstriction. Some of them are normal physiological responses, such as parasympathetic input or decreased partial pressure of carbon dioxide in the alveoli. Other causes are pathological, such as allergic bronchioconstriction or asthma triggered by cold air.

Example Question #13 : Lung And Alveoli

What are the two types of alveolar cells?

Possible Answers:

Interstitial cells and active cells

A cells and B cells

Type I and type II

Primary and secondary cells

Correct answer:

Type I and type II

Explanation:

There are two types of alveolar cells: type I cells and type II cells. Each cell type has a unique function within the alveolus, and the dysfunction of either cell type results in serious respiratory pathology. Type I cells are simple squamous epithelial cells that account for about 95% of all alveolar cells. They are the primary cells responsible for diffusion of gasses across the respiratory membranes. Type I alveolar cells are responsible for secreting surfactant, which facilitates the diffusion of substances across the epithelium.

Example Question #14 : Lung And Alveoli

When the diaphragm contracts, lung volume __________.

Possible Answers:

increases

diffuses

decreases

compresses

Correct answer:

increases

Explanation:

The diaphragm is a thin sheet of muscle that separates the thoracic cavity from the abdominal cavity. At rest, it is drawn upward into a dome-like shape under the lungs. When the diaphragm contracts, the dome flattens out, which increases the size of the thoracic cavity. The negative pressure allows the lungs to expand and fill with air, causing an increase in total lung volume (inhalation). 

Example Question #611 : Nclex

What chamber of the upper respiratory tract is shared by both the respiratory and digestive systems?

Possible Answers:

The pharynx

The soft palate

The sinuses

The esophagus

Correct answer:

The pharynx

Explanation:

The only chamber of the upper respiratory tract that is shared by both the respiratory and the digestive systems is the pharynx. The pharynx is the part of the throat that is immediately posterior to the mouth and the nasal cavity, and superior to the trachea, larynx, and esophagus. 

Example Question #612 : Nclex

Which of the following is not a division of the pharynx?

Possible Answers:

The oropharynx

The nasopharynx

The sinopharynx

The laryngopharynx

Correct answer:

The sinopharynx

Explanation:

The pharynx is made up of three divisions: the laryngopharynx, the oropharynx, and the nasopharynx. There is no portion of the pharynx called the sinopharynx. 

Example Question #2 : Upper Respiratory Tract

Which of the following pairs of sinus is absent at birth, and is not fully developed until puberty?

Possible Answers:

The ethmoid sinus

The sphenoid sinus

The maxillary sinus

The frontal sinus

Correct answer:

The frontal sinus

Explanation:

The frontal sinuses are not present at birth. They begin to develop in the first few years of life, but they are not fully mature until after adolescence. The sphenoid, maxillary, and ethmoid sinuses are present at birth, though they are underdeveloped and similarly do not mature fully till late childhood or adolescence. 

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