Sekaran Proses Masuknya Udara Dalam Sistem Perapatan Yang Tepat, Simak Di Sini

Breathing is an important process that allows the body to get oxygen intake to produce energy and dispose of carbon dioxide as a result of the rest of the metabolism. This process looks simple, which is attractive and exhales, but actually involves a complex and regular organ system. This paper reviews the order of the air entry process in the right respiratory system.

Reporting from Healthy, the human respiratory system and its function are important to understand because each organ in it works together to ensure the body gets oxygen and disposes of carbon dioxide properly. The respiratory organ tissue works together to ensure the body gets oxygen and disposes of carbon dioxide efficiently. Each organ in it has an important role to play so that the respiratory process runs smoothly and the body remains healthy.

If you pay more attention, the human respiratory system and its function are not only air flowing. This system also warms and moisturizes the air inhaled, protects the body from harmful particles and germs, helps us speak, supports the sense of smell, and maintains the balance of the body's acids.

In adults, the normal respiratory frequency ranges from 12 to 20 times per minute, while children usually breathe faster.

In general, the human respiratory system is divided into two main parts, namely the upper respiratory tract and the lower respiratory tract. The order of the air entry process in the right human respiratory system is as follows: Nose Rungga - Faring - Laring - Trakea - Bronkus - Bronchioles - Alveoles - Pulmo Lungs). Below are the sequences and explanations of each part of the human respiratory system and its function:

The upper respiratory tract is part of the human respiratory system located in the head and neck. The various organs included in the upper respiratory tract of humans and their functions, namely:

The air we breathed first enters through the nose. The air is screened by smooth hair (silia), then warmed and moisturized by mucus membranes so that it is more comfortable to enter the next airway.

Faring is the link between the nasal, mouth, and larynx cavities. The air that enters is forwarded to the respiratory tract deeper while adjusting the temperature and humidity.

Laring is often referred to as a ballot box. This organ brings air from farming to tracing, protects the airways from foreign objects with epiglotis, and produces sound when speaking.

The lower respiratory tract is part of the respiratory tract located in the chest. The various organs included in the lower respiratory tract are:

Trakea is the main channel from ranting to bronkus. The trakea wall is coated with silia and mucus that helps filter foreign particles and prevent germs from entering the lungs.

Broncus distributes air from the trakea to the right and left lungs, as well as captures foreign particles through mucus on the walls.

Bronkioles are small branches of bronkus that distribute air throughout the lungs and ensure air reaches the alveoles.

Lungs are the main organ where gas is exchanged. Oxygen is taken from the air inhaled and carbon dioxide is released from the blood to be removed from the body in the lungs.

Alveoles is a small air bag in the lungs. In the alveoles there is an exchange of oxygen and carbon dioxide. The trick, oxygen enters the blood capillary vessels, while carbon dioxide moves to alveoles to be removed.

Oxygen can be termed a passenger who wants to enter the body, then a diaphragm is the energy that attracts the passenger to enter. If one of the organs is damaged, it can cause respiratory distress. The following is the order and way of working in the human respiratory system:

The air from the outside enters through the nose. In the nose, the air is screened, warmed, and moisturized by mucus membranes and smooth hair. This is important to protect the airways from dust and germs.

After passing through the nose, the air moves through the fading and runoff. Faring ensures that the air goes to the correct channel, while the run-off regulates so that the food and airways are not mixed.

After passing through the larong, then the air is continued to the trakea. Trakea is a tube that will carry the air to the bronkus. In the trakea, foreign particles that escape the nose will be caught again by silia and mucus on the walls of the trakea.

After passing through the trakea, then the air is channeled to the branched bronkus to the right and left lungs. The air then passes through the broncheplus, which is a small branch in the lungs, until finally reaching the alveoles.

In the alveoles there is an exchange of gas, namely oxygen entering the blood capillary, while carbon dioxide from the blood enters the alveoles to be removed when we exhale.

Each organ in the respiratory system has a special role so that the body always gets oxygen and disposes of carbon dioxide optimally. When the respiratory process does not run well, the human respiratory system and its functions can experience various disorders. For example, the body can get runny nose, asthma, respiratory tract infection, or other lung disorders. To help prevent this problem, it is better to avoid air pollution and cigarette smoke, diligently wash your hands, maintain environmental hygiene, and meet the fluid and nutrition needs of the body.

This is a review of the order of the air entry process in the right respiratory system. Hopefully useful. Visit VOI.id to get other interesting information.