ENERGY SYSTEMS OR PATHWAYS. EATING FOR ENERGY Energy for Exercise  The food is broken down into soluble chemicals (e.g. glucose) by digestion in the.

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Presentation transcript:

ENERGY SYSTEMS OR PATHWAYS

EATING FOR ENERGY

Energy for Exercise  The food is broken down into soluble chemicals (e.g. glucose) by digestion in the gut.  The soluble chemicals pass through the gut wall into the blood.  The blood carries the soluble food chemicals to all of the body’s cells, where they will be used for: EnergyGrowthRepair Food is the source of energy for the human body and it also provides nutrients for growth and repair. When food is eaten, this is what happens…

Making Energy Available to the Cells of the Body The muscles of the body use both carbohydrates and fats to produce energy. The following diagram shows how carbohydrates are used.

Making Energy Available to the Cells of the Body  Carbohydrates in the form of starch gained from foods such as pasta, bread and potatoes are eaten.  The starch is digested in the gut and turned into glucose molecules.  The glucose enters the small intestine where it passes into the blood.

The glucose is then used in 3 different ways… Here some of the glucose is stored as glycogen and used to maintain blood sugar levels. Glucose is stored here as glycogen and is used when the body is working harder. Glucose diffuses easily into the cells and is used to meet their energy demands. Skeletal Muscle LiverBody Cells

HOW DO MUSCLES WORK Anything you do needs energy. When muscles work they have to lengthen and shorten. For this to work your muscles need energy

ADENOSINE TRI-PHOSPHATE (ATP) This is a chemical which is vital for muscle contraction. Without ATP muscle contraction cannot go on.

However the body only has enough ATP for 1 explosive act After this there is no ATP left. Muscle Contraction cannot take place. Therefore physical activity can no longer continue.

SO ENERGY HAS TO BE CREATED BY OTHER MEANS.

THE CREATINE PHOSPHATE SYSTEM ADENOSINE PHOSPHATE(ADP) + CREATINE PHOSPHATE = ATP (ENERGY) This system is extremely efficient It does not need oxygen It leaves no waste products HOWEVER WE ARE ONLY ABLE TO USE THIS FOR ABOUT SECONDS BEFORE THIS SYSTEM RUNS OUT. THINK 100 metres

THE GLUCOSE/LACTIC ACID SYSTEM or anaerobic glycolysis ADENOSINE DI-PHOSPHATE + GLUCOSE = ATP (ENERGY) When Creatine Phosphate runs out, the muscles call upon the stores of GLUCOSE ( Glycogen ). But there is a side effect with this type of energy system. A waste product called PYRUVIC ACID is produced. This in itself is OK if levels of activity are reduced to enable this Pyruvic Acid to be broken down by OXYGEN into CARBON DIOXIDE and WATER. However, if levels of activity are not reduced and not enough oxygen is being breathed in, then this Pyruvic Acid is not broken down and converts into LACTIC ACID.

LACTIC ACID is a poison.

After a while it will make the muscle ache and eventually it will cause cramp, and the muscles will stop working. The athlete has to rest while blood brings fresh supplies of oxygen to the muscles. He/She is repaying back the OXYGEN DEBT.

THE AEROBIC ( glucose, fats, oxygen ) system or aerobic metabolism This system is used during lower levels of activity when there is enough energy being delivered to the working muscles to clear away ALL the Pyruvic Acid. At lower levels of activity FATS can be used as a muscle fuel. This preserves its stores of GLUCOSE for as long as possible. As a general rule, the more intense the activity, the more GLUCOSE is used instead of FAT.

Aerobic Respiration – With Oxygen 1.Glucose and oxygen are transported to the working muscles by the blood. Aerobic respiration involves the release of energy from the slow breakdown of glucose using oxygen, inside the cells. 2.Glucose and oxygen are then used by the muscles of the body to produce energy. 3.This process creates carbon dioxide and water. 4.The carbon dioxide passes back into the blood for removal. The Process of Aerobic Respiration Energy for Muscles to contract and create Movement Water Carbon Dioxide Glucose Oxygen

Facts about Aerobic Respiration How Aerobic Respiration Happens… Glucose and oxygen are carried by the haemoglobin in the red blood cells. Glucose and oxygen pass into all the muscle cells of the body and is used to help produce energy for muscular contractions. Aerobic respiration produces carbon dioxide & water as waste products.  During aerobic respiration, the heart and lungs supply the muscles with plenty of oxygen.  The carbon dioxide is breathed out via the lungs, while the water is lost as sweat, urine or in the air we breathe out as water vapour.  As long as the muscles are supplied with enough oxygen, exercising aerobically can be carried out for a long period of time. 123

Aerobic respiration is how marathon runners produce the energy that is used in long periods of less intensive effort. Glucose and oxygen produce…

Aerobic respiration is how marathon runners produce the energy that is used in long periods of less intensive effort. Glucose and oxygen produce… Some is used for muscle contractions, creating movement.

Aerobic respiration is how marathon runners produce the energy that is used in long periods of less intensive effort. Glucose and oxygen produce… Carbon dioxide, which is carried away by the blood & excreted through the lungs. Water, which is carried away by the blood and excreted through the lungs, sweat and urine. Some is used for muscle contractions, creating movement. The rest is converted into heat to warm the body.

Anaerobic respiration involves the release of a little energy, very quickly from the incomplete breakdown of glucose without using oxygen, inside the cells. 1.Glucose is made available by the breakdown of glycogen stored in the working muscles. 2. The glucose is used by the muscles of the body to produce energy, without the use of oxygen. 3. This process creates lactic acid, which passes back into the blood for removal. Anaerobic Respiration – Without Oxygen The Process of Anaerobic Respiration Glucose Energy for muscles to contract and create movement Lactic Acid

Glucose is transported to the muscles of the body via the blood. How Anaerobic Respiration Happens Glucose passes into the muscles cells and is used to produce energy for muscular contractions. Anaerobic respiration produces lactic acid as a waste product. Facts about Anaerobic Respiration  During anaerobic respiration, your muscles are not supplied with enough oxygen.  The lactic acid builds up due to the shortage of oxygen. This is known as an oxygen debt, which needs to be paid back once exercising has finished.  The lactic acid build-up will soon make your muscles feel tired and painful, so exercising anaerobically can only be carried out for short periods of time. 123

Oxygen Debt Question: How do sprinters pay back their oxygen debt at the end of a race? Answer: Sprinters will continue to breathe more deeply and rapidly for a number of minutes at the end of their race. This will enable them to pay back the oxygen debt, and allow lactic acid levels to fall.

Anaerobic Respiration is how sprinters produce the energy that is used in short periods of ‘all out effort’ - high intensity. Glucose Produces… Oxygen cannot reach the muscles fast enough, so anaerobic respiration is used.

Anaerobic Respiration is how sprinters produce the energy that is used in short periods of ‘all out effort’ - high intensity. Glucose produces… Lactic acid quickly builds up & makes the muscles feel tired & painful. ‘All out effort’ cannot last for very long! Oxygen cannot reach the muscles fast enough, so anaerobic respiration is used. Some is used for muscle contractions, creating movement.

Anaerobic Respiration is how sprinters produce the energy that is used in short periods of ‘all out effort’ - high intensity. Glucose produces… Lactic acid quickly builds up & makes the muscles feel tired & painful. ‘All out effort’ cannot last for very long! The rest is converted into heat to warm the body. Oxygen cannot reach the muscles fast enough, so anaerobic respiration is used. Some is used for muscle contractions, creating movement.

Anaerobic respiration ________________ is broken down by a chemical reaction to form _________ ___________. The oxygen then changes this acid to ______ _________ and _______ which are removed through the lungs. If there is enough oxygen available, the ________ ______ is converted to _____ _____. Lactic Acid builds up in the working muscles. It makes it difficult for muscles to _________ and causes _________. If a large amount of Lactic Acid builds up in the muscles, they will become _________ and might stop working. An Oxygen Debt is a shortage of _________. If we do not have enough oxygen when we exercise, we have to breathe more deeply and _______ to get more oxygen to the working muscles. So we carry on breathing _______ and _________ after we have stopped exercise to pay back the _______ _________.

ADENOSINE TRIPHOSPHATE (ATP) Formed in the breaking down of GLUCOSE This in turn is broken down by a chemical reaction to give PYRUVIC ACID If there is insufficient oxygen then this turns into LACTIC ACID This causes TIREDNESS of the muscles.

ENERGY SOURCES WHICH OF THE THREE ENERGY SYSTEMS DO VARIOUS SPORT USE.

USING A CHART LIKE THE ONE JUST SHOWN, PUT THE FOLLOWING SPORTS ONTO THE DIAGRAM:- Golf Hockey Martial arts Netball Rugby American football Baseball Table tennis Archery Cricket