Respiratory System Finals PDF

Summary

These notes provide an overview of the human respiratory system. They discuss the function of the system, structures involved (nose, pharynx, larynx, trachea, bronchi, lungs, and alveoli), and gas exchange. The information is suitable for secondary school biology.

Full Transcript

Lesson Overview The Respiratory System

Lesson Overview
27.2 Human Systems I

The Respiratory
System
Lesson Overview The Respiratory System

Structures of the Respiratory System
What is the function of the respiratory system?

The human respiratory system picks up oxygen from the air we inhale and
releases carbon dioxide into the air we exhale.
Lesson Overview The Respiratory System

Structures of the Respiratory System
For organisms, respiration means the
process of gas exchange between a
body and the environment.

The human respiratory system picks
up oxygen from the air we inhale and
releases carbon dioxide into the air
we exhale.

The circulatory system links the
exchange of gases in the lungs with
our body tissues.

The respiratory system consists of
the nose, pharynx, larynx, trachea,
bronchi, and lungs.
Lesson Overview The Respiratory System

Nose
To keep lung tissue healthy, air
entering the respiratory system
must be filtered, moistened, and
warmed.

Hairs lining the entrance to the
nasal cavity start the filtering
process by trapping large
particles.

Incoming air is warmed in the
inner nasal cavity and sinuses.
These areas produce mucus
that moistens the air and
catches even more dust
particles.
Lesson Overview The Respiratory System

Pharynx, Larynx, and Trachea
Air moves through the nose to a
cavity at the back of the mouth
called the pharynx, or throat,
which serves as a passageway
for both air and food.

Air moves from the pharynx into
the trachea, or windpipe.

When you swallow food or liquid,
a flap of tissue called the
epiglottis covers the entrance to
the trachea, ensuring that the
food or liquid goes into the
esophagus.
Lesson Overview The Respiratory System

Pharynx, Larynx, and Trachea
Between the pharynx and the
trachea is the larynx, which
contains two highly elastic folds
of tissue known as the vocal
cords.

When muscles pull the vocal
cords together, the air moving
between them causes the
cords to vibrate and produce
sounds.
Lesson Overview The Respiratory System

Pharynx, Larynx, and Trachea
Mucus produced in the trachea continues to trap inhaled particles.

Cilia lining the trachea sweep both mucus and trapped particles
away from the lungs toward the pharynx, where they can be
swallowed or spit out.
Lesson Overview The Respiratory System

Lungs
From the trachea, air moves
into two large tubes in the chest
cavity called bronchi. Each
bronchus leads to one lung.

Within each lung, the large
bronchus divides into smaller
bronchi, which lead to even
smaller passageways called
bronchioles.

Bronchi and bronchioles are
surrounded by smooth
muscles, controlled by the
autonomic nervous system, that
regulate the size of air
passageways.
Lesson Overview The Respiratory System

Lungs
The bronchioles continue
to divide until they end at a
series of tiny air sacs
called alveoli.

Alveoli are grouped in
clusters, like bunches of
grapes. A network of
capillaries surrounds each
alveolus.
Lesson Overview The Respiratory System

Gas Exchange
When air enters alveoli, oxygen
dissolves in the moisture on their
inner surface and then diffuses
across thin capillary walls into
the blood.

Oxygen diffuses in this direction
because the oxygen
concentration is greater in the
alveoli than it is in the blood.

Carbon dioxide diffuses from
blood into the alveoli because its
concentration is greater in the
blood than it is in the air in the
alveoli.
Lesson Overview The Respiratory System

Transport
Diffusion of oxygen from alveoli into capillaries is a passive process
that stops when oxygen concentration in the blood and alveoli is the
same.

Hemoglobin actively binds to dissolved oxygen, removing it from plasma
and enabling diffusion from the alveoli to continue. Hemoglobin binds
with so much oxygen that it increases blood’s oxygen-carrying capacity
more than 60 times.

When carbon dioxide diffuses from body tissues to capillaries, most of it
enters red blood cells and combines with water, forming carbonic acid.
The rest of it dissolves in plasma or binds to hemoglobin and proteins in
plasma.

These processes are reversed in the lungs, where carbon dioxide is
released into alveoli and exhaled
Lesson Overview The Respiratory System

Breathing
What mechanisms are involved in breathing?

Movements of the diaphragm and rib cage change air pressure in the chest
cavity during inhalation and exhalation.
Lesson Overview The Respiratory System

Inhalation
The lungs are sealed in two
sacs, called pleural
membranes, inside the chest
cavity.

At the bottom of the chest cavity
is a large dome-shaped
skeletal muscle known as the
diaphragm.
Lesson Overview The Respiratory System

Inhalation
When you inhale, the diaphragm
contracts and flattens. Muscles
between the ribs also contract,
raising the rib cage.

These actions increase the volume
of the chest cavity and create a
partial vacuum inside the cavity.
That means a pressure less than
the atmospheric pressure.

Atmospheric pressure fills the lungs
as air rushes into the breathing
passages.
Lesson Overview The Respiratory System
Lesson Overview The Respiratory System

Exhalation
During exhalation, both the rib
cage and the diaphragm relax,
decreasing the volume of the
chest cavity and making air
pressure in the chest cavity
greater than atmospheric
pressure.

Air rushes back out of the lungs.
Lesson Overview The Respiratory System

Exhalation
Exhalation is usually a passive
process, but to blow out a candle,
speak, sing, or yell, you need
more force than passive
exhalation provides.

The extra force is provided by
muscles between the ribs and
abdominal muscles, which
contract vigorously as the
diaphragm relaxes.
Lesson Overview The Respiratory System

Breathing and Homeostasis
You have some conscious control over your breathing—when you
swim or play an instrument, for example—but breathing is not
purely voluntary.

Your nervous system has final control of your breathing muscles
whether you are conscious or not.
Lesson Overview The Respiratory System

Breathing and Homeostasis
Breathing is initiated by the
breathing center in the part of the
brain stem called the medulla
oblongata.

Sensory neurons in or near the
medulla and in some large blood
vessels gather information about
carbon dioxide levels in the body
and send the information to the
breathing center.

When stimulated, the breathing
center sends nerve impulses that
cause the diaphragm and chest
muscles to contract, bringing air
into the lungs.
Lesson Overview The Respiratory System

Effects on the Respiratory System
Three of the most dangerous substances in tobacco smoke are
nicotine, carbon monoxide, and tar.

Nicotine is an addictive stimulant that increases heart rate and blood
pressure and hardens the wall of arteries leading to cardiac arrest.
Addictive since it releases the dopamine in the brain.

Carbon monoxide is a poisonous gas that blocks hemoglobin from
binding with oxygen, thus interfering with oxygen transport in blood.

Tar contains at least 60 compounds known to cause cancer.