Energy systems

Question 1

what does the body convert into energy

Answer 1

food (carbohydrates)

Question 2

what are the three energy systems

Answer 2

• ATP - PC systems
• The short-term lactate anaerobic/ anaerobic glycolytic system
• the aerobic system

Question 3

is the ATP - PC system aerobic or anaerobic

Answer 3

anaerobic

Question 4

is the glycolytic system aerobic or anaerobic

Answer 4

anaerobic

Question 5

is the aerobic system aerobic or anaerobic

Answer 5

aerobic

Question 6

what is the energy source for the ATP - PC system

Answer 6

Phosphocreatine

Question 7

what is the energy source for the glycolytic system

Answer 7

carbohydrate (glycogen - glucose)

Question 8

what is the energy source for the aerobic system

Answer 8

carbohydrates and fats

Question 9

what is the intensity and duration of the ATP - PC system

Answer 9

• single maximal movement
• 5-10s

Question 10

what is the intensity and duration of the glycolytic system

Answer 10

• high to medium intensity
• 30s to 3 minutes (peaks at 45 seconds)

Question 11

what is the intensity and duration of the aerobic system

Answer 11

• low
• 3 minutes + (duration depends on the fitness of the individual

Question 12

how many molecules of ATP are resynthesized, for every molecule of PC

Answer 12

1

Question 13

what happens when we run out of PC

Answer 13

we switch to another energy system

Question 14

what is PC

Answer 14

Phosphocreatine

Question 15

what does Pi + ADP produce

Answer 15

ATP

Question 16

how quickly can ATP stores be replenished (ATP - PC system)

Answer 16

• take 3 minutes, to fully restore
• can restore 50% in 30 seconds

Question 17

what are the advantages of the ATP - PC system ( state 4)

Answer 17

• ATP can be resynthesized rapidly using the ATP – PC system
• Phosphocreatine stores can be resynthesized quickly (30s - 50% replenishment and 3 mins – 100%)
• There are no fatiguing by-products
• It is possible to extend the time the ATP – PC system can be utilised through the use of creatine supplementation

Question 18

what are the disadvantages of the ATP - PC system ( state 3)

Answer 18

• There is only a limited supply of phosphocreatine in the muscle cell, i.e. It can only last for 10 seconds
• Only one mole of ATP can be resynthesized for every mole of PC
• PC resynthesis can only take place in the presence of oxygen (when you reduce intensity of exercise)

Question 19

what is the enzyme that breaks down phosphocreatine

Answer 19

Creatine kinase

Question 20

example question, Name the main energy system being used in the 100m and explain how this system provides energy for the working muscles.

Answer 20

The main energy system that is being using during the 100m is the ATP – PC system. This system is an anaerobic system. When ATP is broken down into ADP, energy is released. We breakdown phosphocreatine with the use of the enzyme creatine kinase, in order to release a phosphate molecule, which binds with ADP in order to from ATP, so that the PC stores are replenished, (this process is using aerobic energy).

Question 21

how many molecules of ATP are produced, when glucose is broken down

Answer 21

2 molecules

Question 22

what is the enzyme that breaks down glucose and what does it break it down into

Answer 22

phosphofructokinase is the enzyme that breaks it down into pyruvic acid,

Question 23

what is the enzyme that turns pyruvic acid into lactic acid, in the absence of oxygen

Answer 23

lactate dehydrogenase

Question 24

what is the enzyme, that breaks down glycogen into glucose

Answer 24

glycogen phosphorylase

Question 25

where does the process of glycolysis take place

Answer 25

in the sarcoplasm of the muscle cells

Question 26

how many molecules of ATP does glycolysis produce

Answer 26

2 ATP molecules ( remember that 4 are actually produced, 2 of them are used for the process of glycolysis)

Question 27

example questions Name the main energy system being used in the 400m and explain how this system provides energy for the working muscles (6 markers)

Answer 27

• The main energy system being used in the 400m would be the anaerobic glycolytic system.
• Takes place the sarcoplasm of the muscle cell.
• This system provides energy, by breaking down glycogen by glycogen phosphorylase.
• This forms glucose, glucose is then broken down by the process of glycolysis by the enzyme phosphofructokinase, in order to resynthesis 2 molecules of ATP and pyruvic acid.
• However, in the absence of oxygen, lactate dehydrogenase changes pyruvic acid into lactic acid.

Question 28

how many molecules of ATP does the aerobic system produce, via that oxidation of 1 glucose molecule

Answer 28

38 ATP molecules

Question 29

what are fats broken down into, before entering the Krebs cycle

Answer 29

they are broken down into acetyl coenzyme A

Question 30

what happens in stage 1 of the Krebs cycle

Answer 30

• Glycolysis: this is anaerobic and takes place in the sarcoplasm of the muscle cell
• Glycolysis is the breakdown of glucose into to pyruvic acid (1 glucose molecules produces 2 ATP molecules)
• Before pyruvic acid enters the next stage (kerbs cycle) it is oxidised into 2 acetyl groups and is carried into the kerbs cycle by coenzyme A

Question 31

what happens in stage 2 of the Krebs cycle

Answer 31

• The 2 acetyl groups diffuse into the matrix of the mitochondria and the kerbs cycle occurs (a complex cycle of reactions)
• The acetyl groups combined with oxaloacetic acid forming citric acid.
• Hydrogen is removed from the citric acid and C and H are given off (oxidative carboxylation)
• C forms C02, is transported to the lungs and breathed out
• H enters the electron transport chain.
• 2 ATP molecules are formed.

Question 32

what happens in stage 3 of the Krebs cycle

Answer 32

• H is carried to the electron transport chain by H carrier (takes place in the cristae of the mitochondria)
• H splits into H ions and electrons are charged with potential energy
• H ions are oxidised to form H20, H electrons provide the energy to resynthesis ATP (34 ATP are formed)

Question 33

what is Beta oxidation (do not need to know in super detail)

Answer 33

• Breaks down fats in the aerobic system.
• Stored fat is broken down into glycerol and three fatty acids for transportation in the blood.
• That fatty acids then undergo beta oxidation: and are converted into acetyl coenzyme A (the entry molecule for the Krebs cycle)
• From then on fat follows the same path as glycogen metabolism
• More ATP can be made from one molecule of fatty acids, than glucose which is why in long duration, low intensity exercise, fatty acids are the predominant energy source – but this does depend on the fitness levels of the performer.

Question 34

what are the advantages of the aerobic energy system, state 3

Answer 34

• More ATP can be produced (36 - 38 ATP molecules)
• There an no fatiguing by products (co2 and h20)
• Lots of glycogen and triglyceride stores so exercise can last for a long time

Question 35

what are the disadvantages of the aerobic system, state 2

Answer 35

• This is a complicated system so cannot be used straight away. It takes a while for enough O2 to become available to meet the demands of the activity and ensure glycogen and fatty acids are completely broken down.
• Fatty acid transportation to the muscles is low and also requires 15% more oxygen to be broken down compared to glycogen.

Question 36

be able to describe the energy continuum graph

Answer 36

Question 37

describe ATP generation in fast twitch ( type 2x) muscle fibres, state 3 reasons.

Answer 37

• The main pathway for ATP production, is via that lactate anaerobic system energy system.
• ATP production in the absence of oxygen is not efficient
• only two ATP produced per glucose molecule.
• Production of ATP this way if fast but cannot last for long as these fibres have least resistance to muscle fatigue

Question 38

describe ATP generation in slow twitch (type 1) muscle fibres, state 3 reasons.

Answer 38

• The main pathway for ATP production is in the aerobic system.
• It produces the maximum amount of ATP available from each glucose molecule (up to 38 ATP molecules)
• Production of ATP is slow but these fibres are more endurance based so less likely to fatigue

Question 39

what is oxygen consumption

Answer 39

the amount of oxygen, we use to produce ATP.

Question 40

what is VO2 max

Answer 40

the maximum volume of oxygen that can be taken up by the muscles per minute (determined by weight).

Question 41

what is sub maximal O2 deficit

Answer 41

when there is not enough oxygen, available at the start of exercise to provide all the energy (ATP) aerobically.

Question 42

what is maximal oxygen deficit (MAOD)

Answer 42

an indication of anaerobic capacity

Question 43

what are the factors that effect V02 max

Answer 43

• differences in age
• gender
• body composition
• lifestyle
• training V02

Question 44

how do differences in age affect VO2 max

Answer 44

as we get older out VO2 max declines as our body systems become less efficient.

Question 45

how does gender affect VO2 max

Answer 45

men generally have approx. 20% higher vo2 max than women

Question 46

how does body composition affect VO2 max

Answer 46

a higher percentage of body fat decrease VO2 max

Question 47

how does lifestyle affect VO2 max

Answer 47

smoking, sedentary lifestyle, poor diet, and poor fitness can all reduce VO2 max values.

Question 48

how does training affect your VO2 max

Answer 48

V02 max can be improved by up to 10-20 percent following a period of aerobic training (continuous, fartlek and aerobic interval)

Question 49

how does physiologically affect your VO2 max (state 5 out of a possible 10)

Answer 49

• Increased maximum cardiac output.
• Increased stroke volume/ejection fraction/cardiac hypertrophy.
• Greater heart rate range.
• Less oxygen being used for heart muscle so more available to muscles.
• Increased levels of haemoglobin and red blood cell count.
• Increased stores of glycogen and triglycerides.
• Increased capillarisation around the muscles.
• Increased number and size of mitochondria.
• Increased surface area of alveoli.
• Increased lactate tolerance.

Question 50

what is OBLA

Answer 50

the onset of blood lactate

Question 51

what is the energy continuum

Answer 51

the relative contribution of all three energy systems, to the resynthesis of ATP

Question 52

what is lactate threshold

Answer 52

the point during exercise, at which lactic acid, quickly accumulates in the blood

Question 53

what is the respiratory exchange ratio

Answer 53

the ratio, of carbon dioxide produced compared to oxygen consumed

Question 54

what is lactate sampling

Answer 54

taking a blood sample, in order to see the proportion of your blood which contains lactate.

Question 55

what is indirect calorimetry

Answer 55

the measurement of the amount of heat/energy, generated in a oxidation reaction, by determining the intake or consumption of oxygen or by measuring the amount of carbon dioxide, released and translating these quantities into a heat equivalent.

Question 56

what is altitude training

Answer 56

usually done at 2500m + above sea level where the partial pressure of oxygen is lower

Question 57

what is high intensity interval training

Question 58

what is plyometrics

Answer 58

involves, repeated rapid stretching and contracting of muscles, to increase muscle power

Question 59

what is SAQ (speed agility quickness)

Answer 59

• speed refers to how fast a person is able to move over a specified distance.
• good agility,m requires a combination of speed, coordination, balance and flexebility.
• trained thorugh dirlls, which include zig zag runs and foot laddres, in order to improve the multi directional movmetns, by developing ones neuromuscular system.