2Learning Outcomes By the end of today’s lesson you should: Be aware of what respiration is and its componentsBe aware of the process involved when we inhale (breathe in) and exhale (breathe out).Know the difference between aerobic and anaerobic respirationBe familiar with the term “Gaseous Exchange.”
3What is Respiration?Respiration is the process in which glucose is converted into energy useable for life processes.Respiration involves the important component of breathing but be careful not to confuse respiration as just solely breathing.There are 2 types of respiration that our bodies use for different activities...
6What is the difference between Aerobic and Anaerobic Respiration? Q. Aerobic respiration occurs in the presence of...A. OxygenExample of an Aerobic activity – Marathon RunningQ. Anaerobic respiration occurs in the ABSENCE of...Example of Anaerobic activity – 100m Sprint
7Aerobic RespirationAerobic respiration occurs in the presence of oxygen and is summarised by the following equation:Glucose + Oxygen Energy + Carbon Dioxide +WaterThis type of respiration is used when the body continues an activity for a prolonged period of time.The energy that is needed to allow this prolonged activity is produced using oxygen.
8Aerobic Respiration Cont In order for the aerobic system to function effectively, there has to be a constant supply of oxygen to the body and the working muscles.For any activity that takes place over a long period of time (e.g. Marathon) it is important to have this constant supply of oxygen to the body otherwise the body would be unable to carry out the event.
9Anaerobic Respiration On the other hand, anaerobic respiration is the process where energy is made in the absence of oxygen.The equation for anaerobic respiration is:Glucose Energy + Lactic Acid
10Anaerobic Respiration Cont. This type of respiration occurs when the body works without sufficient oxygen being delivered to the muscles.Without the presence of oxygen, a waste product called lactic acid is produced in the muscles.High lactic acid concentrations cause muscles to feel painful and can lead to cramp.As oxygen is not being used to generate energy in anaerobic respiration, it can only be used for short bursts e.g. 100m sprint
17Oxygen DebtWhen our bodies respire anaerobically during vigorous exercise, supplies of oxygen are reduced to working muscles.As there is an absence of oxygen, the body can only respire anaerobically for a maximum of 60 seconds.During an anaerobic event such as the 100m sprint or a 50m freestyle event in swimming, our bodies will effectively ‘borrow’ oxygen and it will need to ‘paid back’ in order to break down the waste products produced (lactic acid).
18Oxygen DebtFor example, Usain Bolt runs the 100m race in under 10 seconds and after the race finishes, he must continue to breathe deeply and heavily in order to replenish the oxygen or pay the oxygen debt.One of the main reasons for completing a cool down after vigorous exercise is to enable the oxygen debt to be repaid and will allow any lactic acid to disperse which will avoid further discomfort.
19The Recovery PeriodFollowing intense exercise we have to take in extra oxygen which will help convert the lactic acid into simple waste products that have to be removed from the body.Expiration of breath – removes the carbon dioxide and other waste products from our lungs.Perspiration – is a form of temperature control and also removes excess water such as sweat at the same time that it is letting heat escape through evaporation from the skin. Although this heat is not really a waste product it must be released to prevent our bodies from overheating.Excretion through urine and faeces – removes excess water and the other waste products from the lactic acid.
20BreathingThis is a diagram of all the components involved in the breathing process
21Inhalation (breathing in) During inhalation:The chest cavity changes shape and size.The intercostal muscles contract which causes the rib cage to expand and pushes out the sternum (chest/breastbone)The diaphragm will contract and will change shape from a concave or dome shape to a flattened shape.The pressure inside the chest cavity will be reduced and therefore allows air to be sucked into the lungs.The air we breathe in is high in oxygen and nitrogen but low in carbon dioxide.
23Exhalation (breathing out) During exhalation:The process is virtually reversedThe chest cavity changes in shape and sizeThe intercostal muscles relax, allowing the rib cage to drop downwards and inwards.The diapgrahm relaxes and regains its concave or domed shape and this decreases the volume of the chest.The pressure inside the chest will subsequently increase and force air out. The air exhaled is high in nitrogen and carbon dioxide.
25Gaseous ExchangeGaseous exchange is the process where carbon dioxide is exchanged in the lungs for oxygen by diffusion.The carbon dioxide produced as a waste product of respiration must be exhaled from the body and more oxygen is needed through inhalation.Gaseous exchange takes place in the alveoli in the lungs.
26Gaseous Exchange Cont.The diagram shows gaseous exchange occurring at the alveoli in the lungs. The oxygen is taken into the blood and carried to the heart to be pumped around the body and the carbon dioxide is exhaled as a waste product of respiration.
28True or False?Anaerobic exercise involves using oxygen to produce energy.A triathlon competitor will use aerobic respiration.Carbon dioxide is a waste product which causes discomfort and pain in the muscles.Anaerobic respiration will be used in activities which can last up to 1 minute.
29Questions??? What is the Oxygen Debt? Give 3 examples of aerobic activitiesGive 3 examples of anaerobic activitiesGive 2 example of a sport that will use both aerobic and anaerobic respiration.What are the 2 main muscles/group of muscles involved in breathing and changing the shape and size of the chest.