Exercise

Created by

yana

Cards (43)

Aerobic exercise 
Uses oxygen for energy production
Includes activities that are of a long duration
Includes activities that are of a moderate intensity
The heart and lungs can supply all the blood and oxygen to the working muscles to produce energy aerobically
Sports and activities (aerobic) 
Long distance cycling
Marathon running
Triathlon
Aerobic equation 
Glucose + O₂ → CO₂ + H₂O + Heat + Energy
Glucose and oxygen combine to release energy aerobically
This process produces carbon dioxide, water and heat (and energy)
Anaerobic exercise 
Does not use oxygen for energy production
Include activities that are of a short duration
Includes activities that are of a high intensity
The heart and lungs cannot supply blood and oxygen to muscles fast enough to use so energy is produced anaerobically
Anaerobic equation 
Glucose → lactic Acid + Energy
Lactic acid is produced as a waste product when carbohydrates are broken down without oxygen during anaerobic respiration
This causes muscles to become tired and work less efficient
Excess post-exercise oxygen consumption (EPOC) 
The additional amount of oxygen consumed after anaerobic exercise
Refers to the amount of oxygen needed to recover after exercise
Enables lactic acid to be converted to glucose, carbon dioxide and water
Explains why we breathe deeply and quickly after vigorous exercise
EPOC is sometimes referred to as oxygen debt
Analysing EPOC 
The resting requirement identifies how much oxygen is required at rest
When we start to exercise the demand for oxygen increases. it takes time to get the oxygen to the working muscles, not all the oxygen can be provided (anaerobic) we get an O₂ deficit
When we stop exercising the demand for oxygen remains higher (to pay back the deficit) this is EPOC
Recovery process 
1. Cool down
2. Massage
3. Ice baths
4. Manipulation of diet
Cool down 
Light exercise and stretching help to keep the breathing/heart rate elevated, ensuring blood flow to the muscles which helps convert the lactic acid to glucose, carbon dioxide and water to prevent muscle soreness
Cool down 
Any sport or activity after vigorous exercise
Massage 
Reduces inflammation of a tender area
Increases blood flow, so increases oxygen delivery to the muscles which helps the removal of lactic acid
Massage 
Games players may use an ice bath after an intense match to help recovery
Ice baths 
Aid and repair micro tears in muscle fibres preventing DOMS
Reduce swelling of an injured area
When you get out an ice bath the warmer temperature dilates blood vessels which allows oxygenated blood to rush to the muscles removing lactic acid and other waste products
Ice baths 
Games players may use an ice bath after an intense match to help recovery
Carbohydrates 
Foods high in carbohydrates should be consumed soon after exercise to replace glycogen stores
Rehydration 
Water or isotonic drinks should be consumed before during and after vigorous exercise to replace fluids that are lost during exercise and prevent dizziness and nausea that are symptoms of dehydration
Carbohydrates and rehydration 
Endurance athletes such as runners
Any performer that sweats needs to rehydrate
Immediate effects of exercise
1. Getting hot
2. Getting sweaty
3. Having red skin
4. Increased depth and rate of breathing
5. Increased heart rate
Getting hot 
Heat is a by-product of energy production, the harder we train the hotter we get
Getting sweaty 
Sweat glands produce sweat to cool you down, sweat evaporating from the surface of your skin removes some body heat
Having red skin 
Blood vessels dilate close the surface of the skin to help you lose heat, this makes you look red
Increased depth and rate of breathing
This allows more gaseous exchange to occur more quickly. More oxygen can be delivered to the working muscles and more carbon dioxide can be removed
Increased heart rate 
This allows gases to be transported around the body. Oxygen can be delivered to the working muscles and carbon dioxide can be removed
Short-term effects of exercise
1. Tiredness and fatigue
2. Light headedness or nausea
3. Aching muscles
4. Cramp
5. DOMS
Tiredness and fatigue 
When we are exercising energy, stores are being use up this will lead to tiredness and fatigue
Light headedness or nausea
When we exercise, we lose fluids, this can lead to dehydration, Light headedness and nausea are symptoms of being dehydrated
Aching muscles 
Blood vessels dilate close the surface of the skin to help you lose heat, this makes you look red
Cramp 
Cramp is an involuntary muscular contraction. A cause of cramp is a depletion of energy stores or dehydration and a lack of electrolytes due to sweating
DOMS 
DOMS can occur due to micro tears in the muscles from vigorous activity
Long-term effects of exercise and improvements in specific components of fitness
1. Change in body shape
2. Improved stamina
3. Increase in size of the heart (cardiac hypertrophy)
4. Lower resting heart rate (bradycardia)
Change in body shape 
A change in body shape can improve performance. An increase in muscle mass will assist in strength and power sports such as sprinting and rugby. A reduction of body fat will assist a long-distance runner
Improved stamina 
Improved stamina will allow performers to last longer in an activity without getting tired. For example, performing to a high standard for 90 minutes in football
Increase in size of the heart (cardiac hypertrophy)
An increase in the size of the heart will allow more blood pumped per beat (stroke volume) when exercising. This will allow more oxygen to be delivered to the working muscles
Lower resting heart rate (bradycardia) 
Because the heart can pump more blood per beat it will not have to work as hard at rest therefore resting heart rate will be lower
Components of fitness
Strength
Cardiovascular endurance
Speed
Flexibility
Muscular endurance
Strength 
Allows us to provide a force applied by a muscle group to overcome a resistance
Cardiovascular endurance 
Allows oxygen to be supplied to the working muscle so you can perform for a long time without getting tired