4.3 Exchange of gases in the lungs. Learning outcomes Students should understand the following: The essential features of the alveolar epithelium as a.

Slides:

Advertisements

Similar presentations

Mammalian Lungs List the features of the mammalian lung that adapt it to efficient gaseous exchange Describe, with the aid of diagrams and photographs,

Advertisements

Lungs By the end of the lesson you should be able to: Label the internal structures of the lungs State the features of the alveoli which allow efficient.

AQA Science © Nelson Thornes Ltd B3 1 Summary Exchange of materials Chapter review.

Lung Structure and Function AQA Biology and Disease.

Respiratory system Lesson 4 Gaseous exchange. LO – Level 4 –To state where oxygen gets into the blood and how it is transported around the body. Level.

Movement In and Out of Cells

Why would enzymes have different optimums

Topic 6.4 – Gas Exchange.

Bellwork Which blood vessels (all sizes) deliver blood to the lungs from the heart? Which take blood back to the heart from the lungs (all sizes)? What.

Human Breathing System

Topic 2 Organisms and Energy 1.Aerobic Respiration 2.Exercise 3.Anaerobic Respiration 4.Photosynthesis 5.Limiting factors 6.Water Transport.

Lecture – 5 Dr. Zahoor Ali Shaikh

Gaseous Exchange Breathing Lungs.

Homework 1.Q 2,3,4 pp Complete todays lesson work (role of the alveolus in gas exchange) 3.Red p75 mah 4.Red p77 mah 5.Red q p79 mah.

Lecture – 5 Dr. Zahoor Ali Shaikh 1.  Gas Exchange takes place in alveoli and then at tissue level.  Why we are breathing?  To provide a continuous.

4.3 Exchange of gases in the lungs. Learning Objectives What are the essential features of exchange surfaces? How are gases exchanged in the alveoli of.

Louis Holdcroft & Joel Willams

The human gas exchange system consists of the nasal passages, the pharynx or throat, the larynx or voice box, the trachea, the right and left bronchus.

Exchanging materials – the lungs

When you breathe in, air enters your lungs. Inside the lungs are many tiny air sacs called alveoli.

The Lungs How are the lungs adapted to provide our bodies with all the oxygen we need?

Gas exchange in leaves Aqa book p Homework Green and Red q p.179 Green and red p.183.

How can a shark find injured prey so quickly?

The Human Body: Respiratory System

Alveoli Capillaries Alveoli Capillary Alveoli HIGH O2 Capillary LOW O2 Capillary HIGH O2 Alveoli LOW O2.

The Terminal End of the Breathing Tube  After oxygen passes into the lungs through the bronchial tubes, it moves into tiny sacs called alveoli  Alveoli.

Lungs By the end of the lesson you should be able to:  Label the internal structures of the lungs  State the features of the alveoli which allow efficient.

AS Level Biology Lesson 2. Gas exchange and respiration If cells are to stay active, grow and divide they need energy. This energy comes from the oxidation.

Gas Exchange about the exchange of gases at the interface between the alveoli and capillaries WAL: All Most Some What are the essential features of exchange.

Learning objectives: 1.Must say what the job of the lungs is and name the main parts 2.Should describe the special features the lungs have to do their.

Human Respiratory System Respiration is gas exchange between an organism and the environment Respiratory structures include the nose, pharynx, larynx,

Title Page. Respiratory Intro You may be asking, what is the Respiratory system? Well, the Respiratory system is the system that helps you breath in and.

Exchanging gases with the environment

Topic 6 Continued: 6.4 Respiratory System

Gas Exchange in Humans Ch. 9 pp Gas exchange occurs at special surfaces Animals and plants get their oxygen directly from their surroundings.

Gas Exchange (Core) Distinguish between ventilation, gas exchange and cell respiration.

6.4: GAS EXCHANGE. Sketch and label a diagram of the ventilation system, including: Trachea, right/left lung, bronchus, bronchioles, ribs, intercostal.

The beginning. Oxygen first enters your body and Carbon Dioxide leaves Air enters the nose and is filtered by tiny hairs called cilia, it is moistened.

Mammalian Gas Exchange.

Requirements of a Gas Exchange System Mammals. Large Surface Area  Alveoli allow a surface area 40x that of the body.

The Breathing System L/O ;- To be able to label the human breathing system.

The Respiratory System

The lungs. Use all of these words to explain how the lungs work: Lungs Trachea Bronchi Bronchioles Alveoli (alveolus) Blood capillaries Now answer.

Diffusion is the process by which particles of gases or liquids spread out from an area where there are lots of them to areas where there are fewer of.

Objectives By the end of the lesson you will be able to:- Identify the gross structures of the respiratory system; Describe the function of 4 of the gross.

Investigate the process of diffusions between two substances Justify how the rate of diffusion can be affected by different factors Outcomes Explain how.

The Respiratory System To explore gross and minute features of the respiratory system and examine gaseous exchange.

Respiration & Breathing. Our cells need energy… For: Movement (muscle contraction) Heat generation (37°C) Active transport (absorption in the gut) Nerve.

Lung Histology Objective To describe the gross anatomy and structure of lung tissue.

Lecture on Lungs

6.4 Notes on Ventilation and Lung Structure

Gas Exchange in Mammals

Module F Exchange surfaces and breathing

Exchanging materials in the lungs

Exchange of materials Chapter review.

Alveolar Gas Exchange Chapter 19.5.

Mass transport systems.

Lungs By the end of the lesson you should be able to:

HUMAN AND SOCIAL BIOLOGY Movement of Substances

6.4 – Gas Exchange.

6.4 Gas Exchange.

Control & Coordination Part 1 The Respiratory System

Presentation transcript:

4.3 Exchange of gases in the lungs

Learning outcomes Students should understand the following: The essential features of the alveolar epithelium as a surface over which gas exchange takes place. The exchange of gases in the lungs.

Alveoli The site of gas exchange in mammals is the epithelium of the alveoli. Minute air-sacs 100 – 300  m in diameter There are about 300 alveoli in each human lung. Each alveoli is lined with epithelial cells 0.05  m to 0.3  m thick. Each alveolus is surrounded by a network of pulmonary capillaries.

Actually, each air sac is found to be a bundle of air sacs. Together, they are known as an alveolus. We can look inside the alveolus to get some idea of why they are shaped the way they are. The outside of the alveolus is covered with tiny blood vessels. Oxygen makes its way to special air sacs. Inside an alveolus

oxygen (O 2 ) gas passes through here This O 2 is then able to dissolve in a small moist lining. epithelial lining of the alveolus A cross-section of an alveolus The moist lining also stops the alveolus from drying and cracking. It lubricates the insides of the air bag.

Label the alveolus

Diffusion at work

After the oxygen dissolves it also diffuses. O2O2 O2O2 O2O2 O2O2 cell lining of alveolus cell lining of capillary blood D I F F U S I O N The oxygen molecules must diffuse through both the lining of the alveolus and the lining of the blood capillary. They are eventually picked up by red blood cells. Oxygen diffusion into red blood cells

The blood now carries this oxygen to the cells of the body. Right Lung Left Lung blood vessel body cells blood O2O2 O2O2 Blood leaving the lungs

Laws of diffusion The movement of the oxygen from the blood to the cells also follows the law of diffusion. It is highly concentrated within the blood. Meanwhile the concentration is low within the cell. blood coming from the lungs body cell high concentration low concentration Therefore the oxygen passes into the body cells.

Alveoli adaptations Alveoli have the following adaptations which make them a really good surface for gas exchange: Large surface area to volume ratio – speeds up the rate of exchange Thin exchange surfaces – short diffusion pathway Partially permeable – to allow selected materials to diffuse easily Steep concentration gradient maintained by breathing and blood flow

Alveoli adaptations The walls of the alveoli are moist and oxygen diffuses into this liquid before diffusing across the alveolar wall and into the blood. This liquid contains a surfactant which reduces surface tension and prevents the air-sacs collapsing. It is produced in babies from 7 months onwards which is why those born before this time may have breathing difficulties. Artificial surfactants are now being used which can help prevent brain damage due to lack of oxygen in the first few weeks.

Learning outcomes Students should understand the following: The essential features of the alveolar epithelium as a surface over which gas exchange takes place. The exchange of gases in the lungs.