Respiratory System – Part 2 How do we breathe? Key starting points: Lungs are in their own air-tight space Diaphragm powers breathing …With some help from.

Slides:

Advertisements

Similar presentations

Advertisements

Respiratory System Exchange of oxygen and carbon dioxide between the blood and the muscle tissues Exchange of oxygen and carbon dioxide between the lungs.

Respiratory System Physiology

The effects of acute/ Short term exercise on the respiratory system

Functions of the Respiratory system

AS PE PHYSIOLOGY EXAM QUESTIONS & MARK SCHEMES

David Sadava H. Craig Heller Gordon H. Orians William K. Purves David M. Hillis Biologia.blu C – Il corpo umano Respiratory System and Gas Exchange.

Respiratory System.

The Respiratory System Structure Function Effects of Acute & Long Term Exercise.

Copyright © 2003 Pearson Education, Inc. publishing as Benjamin Cummings. RESPIRATORY SYSTEM: EXCHANGE OF GASES CHAPTER 10 RESPIRATORY SYSTEM: EXCHANGE.

1 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Human Biology Sylvia S. Mader Michael Windelspecht Chapter.

Respiration Chapter 42. Respiration  Gas exchange  Movement of gas across membrane  Diffusion (passive)  To improve gas absorption  Increase surface.

Function, Types of Respiration. Respiration External Respiration: exchange of gases between air in the lungs and in the blood Internal Respiration: exchange.

F ‘08 P. Andrews, Instructor.  Respiration  Exchange of gases between an organism and it’s environment  Pulmonary (external) respiration Occurs in.

BTEC NATIONAL Sport UNIT 5 THE BODY IN ACTION The respiratory system Dale Embleton UNIT 5 THE BODY IN ACTION.

©Subject Support Hairs: Filter Dust, Pollen and Foreign bodies Air is warmed and moistened Cilia transport foreign particles to the Pharynx.

Measuring lung volumes. Syllabus reference:  outline the mechanism of breathing in mammals, with reference to the function of the rib cage, intercostal.

 Will the partial pressure of O2 and CO2 at the LUNGS vary during periods of exercise?  List the factors that make diffusion of oxygen from the LUNGS.

Lung Function Learning Objectives

Unit 3A Human Form & Function Cells, metabolism & regulation Regulation of gas concentrations.

The mechanics of breathing and Respiratory Volumes

Mechanics of Breathing

Respiratory System Chapter 16 Bio 160.

Chapter 15 Respiratory System. Parts of Respiratory System Nasal Cavity Pharynx Epiglottis  covers the opening to trachea during swallowing Glottis 

Respiratory System Biol 105 Lecture 18 Chapter 14.

1 Respiratory System. 2 Outline The Respiratory Tract – The Nose – The Pharynx – The Larynx – The Bronchial Tree – The Lungs Gas Exchange Mechanisms of.

Chapter 16.  Ventilation includes:  Inspiration (inhalation)  Expiration (exhalation)

Warm-Up Name the organs forming the respiratory passageway from the nasal cavity to the alveoli of the lungs. Explain how the respiratory muscles cause.

Respiratory Physiology. Inhalation Diaphragm contracts Ribs move up and out, chest cavity enlarges and pressure decreases Air rushes in from higher pressure.

Biomechanics of breathing. Lungs ventilation

Respiratory Physiology and Lung Capacity. Inhalation Diaphragm contracts Ribs move up and out, chest cavity enlarges and pressure decreases Air rushes.

Breathing and the Lungs

Unit 3A Human Form & Function Cells, metabolism & regulation Regulation of gas concentrations.

THE MECHANICS OF BREATHING

Presentation title slide

Unit 1: Anatomy and Physiology in Sport Respiratory system and volumes Kevin Browne.

Respiratory system. Why do animals need a respiratory system??

Copyright © 2009 Pearson Education, Inc. Figure 10.9 The respiratory cycle.

The Respiratory System. Human Respiratory System Nose Passageway for air Mouth Passageway for food and air Epiglottis Covers larynx during swallowing.

Key Questions for Understanding Respiratory Physiology.

Breathing Inhaling – breathing IN. Breathing IN CO 2 levels rise –detected by Medulla oblongata (brain) Impulse sent to diaphragm and intercostal muscles.

The Respiratory System

Short Term Effects of Exercise Works harder to meet the demands for more O2 Increased Breathing Rate Take more breaths to get more O2 into the CV system.

1. Name the organs forming the respiratory passageway from the nasal cavity to the alveoli of the lungs. 2. Explain how the respiratory muscles cause volume.

Pages  Tidal Volume (TV): (know this) - total air moved with each breath  Normal breathing moves about 500 ml  Inspiratory reserve volume.

 Oxygen is essential for the existence of animals  All oxygen in the air comes from the process of photosynthesis  Air consists of:  Nitrogen-78.09%

Respiratory System ( ) Process that provides oxygen to tissue cells and removes carbon dioxide from the body Two requirements for respiration 1.

AS PE PHYSIOLOGY EXAM QUESTIONS & MARK SCHEMES

Human Anatomy and Physiology

THE RESPIRATORY SYSTEM

Respiration Oxygen enters cells by diffusion.

What it Means to Breathe

Lung Function Learning Objectives

Ventilatory System - Structure of ventilatory system - Functions of airways - Pulmonary ventilation mechanics - Alveoli exchange - Hemoglobin in oxygen.

Lung Function Learning Objectives

Respiratory System Anatomy

Ventilation: The Mechanics of Breathing

NOTES: Respiratory System (UNIT 7 part 2) – Breathing Mechanism

The Respiratory System

Respiratory Physiology

11.1 The Function of Respiration

Respiratory System Normal breathing rate breaths/min

PHED 1 Applied Physiology Lung Function

The Respiratory System

Process of Breathing.

Regulation of Breathing Movements

Your Assignment….. Increased vital capacity Respiratory System

Presentation transcript:

Respiratory System – Part 2 How do we breathe? Key starting points: Lungs are in their own air-tight space Diaphragm powers breathing …With some help from the intercostal muscles around the ribcage

Which set of lungs has a bigger volume?

How does the thoracic cavity change size?

How do you know when to breathe? Involuntary in humans, but can be controlled consciously if we try (partial conscious control) Carbon dioxide and hydrogen ion levels control when you breathe Oxygen levels only control breathing during very low oxygen situations The breathing centre of the brain senses these levels and sends signals to the muscles

5. Diaphragm lowers, rib cages lifts  Low pressure 6. Air flows in  alveoli stretch 7. Stretch receptors signal the medulla to stop the signal to contract 8. Medulla stops sending the message to contract 9. Relaxation of muscles  The lung space shrinks  High pressure 10. Air flows out 1. CO2 levels rise 2. Chemoreceptors sense increased CO2 3. Send signal to medulla oblongata in brain 4. Medulla sends nerve signal to diaphragm and rib muscles to contract

How much can you breathe in/out?

Definitions: Tidal volume the amount you exchange in a normal breath Inspiratory reserve volume the maximum you can breathe in Expiratory reserve volume the maximum you can breathe out Residual volume the air left in your lungs when you breathe out Vital capacity the maximum volume you can breathe in and out