Presentation is loading. Please wait.

Presentation is loading. Please wait.

Gas Exchange Week 4. Daltons Law The partial pressures of the 4 gases add up to 760mm Hg. Dalton’s Law; in a mixture if gases, the total pressure.

Published byRosemary Osborne Modified over 8 years ago

Similar presentations

Presentation on theme: "Gas Exchange Week 4. Daltons Law The partial pressures of the 4 gases add up to 760mm Hg. Dalton’s Law; in a mixture if gases, the total pressure."— Presentation transcript:

1 Gas Exchange Week 4

2 Daltons Law

3

4

5 The partial pressures of the 4 gases add up to 760mm Hg. Dalton’s Law; in a mixture if gases, the total pressure equals the sum of the partial pressures exerted by each gas.

6 Important Point Gases in our bodies are dissolved in fluids, such as blood plasma. According to Henry’s law, –gases dissolve in liquids in proportion to their partial pressures, depending also on their solubilities in the specific fluids and on the temperature.

7 The Site of Gas Exchange External Respiration CO2 diffuses from pulmonary capillaries into alveoli O2 Diffuses from alveoli into pulmonary capillaries Internal respiration O2 diffuses from systemic capillaries into cells CO2 diffuses from cells into systemic capillaries

8 Factors Influencing External Respiration Efficient external respiration depends on 3 main factors 1)Surface area and structure of the respiratory membrane 2)Partial Pressure gradients 3)Matching alveolar airflow to pulmonary capillary blood flow.

9 Important Point Partial pressure gradients affect gas exchange between the alveoli and pulmonary capillaries.

10 External respiration: Partial Pressures The Partial pressures of gases in the alveoli differ from those in the atmosphere. 1)Humidification of inhaled air 2)Gas exchange between alveoli and pulmonary capillaries 3)Mixing of new and old air

11 Oxygen Loading Oxygen diffuses along its partial pressure gradient, from the alveolus into the blood, until equilibrium is reached Equilibrium is reached within the first third of the capillary.

12 Oxygen Loading

13 Carbon Dioxide Uploading Carbon dioxide diffuses along its partial pressure gradient, from the blood into the alveolus, until equilibrium is reached Equilibrium is reached within the first 4 4/10’s of the capillary

14 This Occurs Simultaneously Carbon dioxide is very soluble in blood, allowing many molecules to diffuse along this small pressure gradient. Oxygen is less soluble, requiring a larger concentration gradient.

15 Other Factors Affecting External Respiration 1)Matching alveolar airflow to pulmonary capillary blood flow. 2)Watch the following clip. 3)This is Know as the Ventilation-Perfusion Coupling

16 Internal Respiration O2 diffuses from systemic capillaries into cells CO2 diffuses from cells into systemic capillaries.

17 Internal Respiration Depends on: 1)Available surface area, which varies in different tissues. 2)Partial Pressure gradients 3)Rate of blood flow varies (e.g. metabolic rate of tissue)

18 Internal Respiration CO2 and O2 Exchange

19 Summary

Download ppt "Gas Exchange Week 4. Daltons Law The partial pressures of the 4 gases add up to 760mm Hg. Dalton’s Law; in a mixture if gases, the total pressure."

Similar presentations

Respiratory Physiology: Gas Exchange

Respiratory Physiology: Gas Exchange
Part 3 Respiratory Gases Exchange.

Part 3 Respiratory Gases Exchange.
GAS EXCHANGE. Gaseous exchange refers to the exchange of gases, namely Oxygen and Carbon Dioxide and relies on a process called diffusion. Diffusion is.

GAS EXCHANGE. Gaseous exchange refers to the exchange of gases, namely Oxygen and Carbon Dioxide and relies on a process called diffusion. Diffusion is.
Dr. JAWAD NAWAZ. Diffusion Random movement of molecules of gas by their own kinetic energy Net diffusion from higher conc. to lower conc Molecules try.

Dr. JAWAD NAWAZ. Diffusion Random movement of molecules of gas by their own kinetic energy Net diffusion from higher conc. to lower conc Molecules try.
Transport of gases. Mechanism of gas transport Primary function is to obtain oxygen for use by body's cells & eliminate carbon dioxide that cells produce.

Transport of gases. Mechanism of gas transport Primary function is to obtain oxygen for use by body's cells & eliminate carbon dioxide that cells produce.
Partial Pressures of O 2 and CO 2 Normal air pressure at sea level 760 mm Hg = 1 atm = 101.3 kPa airtracheaalveoliartery vein PO2159.6149.2104.0100.0 40.0.

Partial Pressures of O 2 and CO 2 Normal air pressure at sea level 760 mm Hg = 1 atm = kPa airtracheaalveoliartery vein PO
Dr Archna Ghildiyal Associate Professor Department of Physiology KGMU Respiratory System.

Dr Archna Ghildiyal Associate Professor Department of Physiology KGMU Respiratory System.
Gas Exchange and Transport

Gas Exchange and Transport
The Respiratory System 1 2 3 4 5 1. Pharynx 2. Larynx – Houses the vocal chords 3. Trachea 4. Primary bronchi 5. Diaphragm.

The Respiratory System Pharynx 2. Larynx – Houses the vocal chords 3. Trachea 4. Primary bronchi 5. Diaphragm.
Respiratory Partial Pressure Primary determinant of diffusion and direction Describes the pressure of a particular gas within a mixture Equals the total.

Respiratory Partial Pressure Primary determinant of diffusion and direction Describes the pressure of a particular gas within a mixture Equals the total.
Gas Exchange and Transport

Gas Exchange and Transport
Chapter 6 The Respiratory System and Its Regulation.

Chapter 6 The Respiratory System and Its Regulation.
Chapter 22 Respiratory System Lecture 8 Part 2: O2 and CO2 Transport

Chapter 22 Respiratory System Lecture 8 Part 2: O2 and CO2 Transport
Gas exchange.. Key terms: Gas exchange refers to the exchange of gases, namely oxygen and carbon dioxide and relies on a process called diffusion. Diffusion.

Gas exchange.. Key terms: Gas exchange refers to the exchange of gases, namely oxygen and carbon dioxide and relies on a process called diffusion. Diffusion.
Gas exchange internal and external respiration.

Gas exchange internal and external respiration.
Lecture – 5 Dr. Zahoor Ali Shaikh

Lecture – 5 Dr. Zahoor Ali Shaikh
1 Section II Respiratory Gases Exchange 2 3 I Physical Principles of Gas Exchange.

1 Section II Respiratory Gases Exchange 2 3 I Physical Principles of Gas Exchange.
Unit Seven: Respiration

Unit Seven: Respiration
Gas Exchange in Lungs Prof. K. Sivapalan. Properties of Gases 20132Gas Exchange.

Gas Exchange in Lungs Prof. K. Sivapalan. Properties of Gases 20132Gas Exchange.
6.4 Gas Exchange. Some basic ideas: We have to breathe so that we can exchange the carbon dioxide that our cells produce during cell respiration for the.

6.4 Gas Exchange. Some basic ideas: We have to breathe so that we can exchange the carbon dioxide that our cells produce during cell respiration for the.

Similar presentations

Ads by Google