Respiration Double Jeopardy

Respiratory Volumes

Inspiration

Expiration

Anatomy

Potpourri

200

The manner in which air enters and exits the lungs.

Ventilation

200

The portion of the brain containing the respiratory centre.

The medulla oblongata

200

The passive phase of breathing.

Expiration

200

Paired, cone-shaped organs that lie on either side of the heart within the thoracic cavity.

Lungs

200

This is lost when air is exhaled.

CO₂

400

The tool that measures the amount of air inhaled and exhaled with each breath.

Spirometer

400

The active phase of breathing.

Inspiration

400

When air is expelled, what keeps the lungs from collapsing?

Residual volume

400

The opening at the top of the larynx.

Glottis

400

These consist of alveoli surrounded by an extensive capillary network.

The Lungs

600

The small amount of air that moves in and out with each breath during a state of rest or relaxation, only about 500mL.

Tidal Volume

600

This muscle contracts to increase thoracic cavity size to cause the lungs to expand.

Diaphragm

600

The movement of gases between blood and the alveoli and the systemic capillaries.

External and internal respiration

600

The funnel-shaped passageway that connects the nasal and oral cavities to the larynx.

Pharynx

600

This carries deoxygenated blood away from the heart to the alveoli.

Pulmonary Arteriole

800

The amount of air that remains in the lungs after exhaling, about 1000mL.

Residual Volume

800

The primary stimuli that directly cause the respiratory centre to activate breathing.

Carbon dioxide and H⁺ ions

800

Expiration occurs due to lack of stimulation from the respiratory centre to which muscle?

Diaphragm

800

The mucosal folds supported by elastic ligaments stretched across the glottis. Air passes through the glottis to produce sound.

Vocal Cords

800

This carries oxygenated blood from the alveoli to the heart.

Pulmonary venule

1000

The maximum volume of air that can be moved in plus the maximum amount that can be moved out during a single breath.

Vital Capacity

1000

When the concentration of oxygen in blood decreases, these communicate with the brain to increase breathing rate and depth.

Carotid and Aortic Bodies

1000

The increase of this in the thoracic cavity helps expel air.

Intrapleural pressure

1000

The branched divisions of the trachea that lead to the right and left lungs.

The Bronchial Tree, Bronchi

1000

A secretion that plays a key role keeping the alveoli open by reducing surface tension.

Surfactant