3.1.1 - Applied anatomy and physiology

Question 1

Identify the bones located in the upper body

Answer 1

Head/Neck - Cranium and vertebrae
Shoulder - Scapula and humerus
Chest - Ribs and sternum
Elbow - Humerus, radius and ulna
Hands - Carpals, metacarpals, phalanges

Question 2

Identify the bones located in the lower body

Answer 2

Hip - Pelvis and femur
Knee - Femur, tibia and patella
Ankle - Tibia, fibula, tarsals, metatarsals and phalanges.

Question 3

Identify the three functions of the skeleton

Answer 3

Three of:

1. Protection of vital organs by flat bones
2. Muscle attachment
3. Joints for movement
4. Mineral storage
5. Blood cell production

Question 4

Explain how the functions of the skeleton are applied to performance in physical activity

Answer 4

Protection: Certain parts of the skeleton protect the body’s organs from external forces. e.g. the brain is inside the cranium (heading a football), the ribs protect the heart and lungs. These are specifically important during contact sports such as rugby and boxing.

Joints for movement: The skeleton helps the body move by providing anchor points for the muscles to pull against. A joint is where two or more bones join together and allow movement to take place.

Mineral Storage: Minerals are stored and released in the body when needed. This allows the body to maintain a stable balance of key minerals. Calcium and phosphorus are both needed for strong bones and teeth.

Blood cell production: Inner marrow of long bones produce red blood cells. Red blood cells carry oxygen around the body to working muscles. This is specifically important for aerobic athletes, such as marathon runners, team game athletes

Question 5

Identify the muscles located in the upper body

Answer 5

Latissimus dorsi - located at the back
Deltoid - located at the shoulder
Rotator cuffs - located at the shoulder
Pectorals - located at the chest
Biceps - located at the arms
Triceps - located at the arms
Abdominals - located at the torso

Question 6

Identify two types of freely movable joints

Answer 6

1. Hinge joint

2. Ball and socket joint

Question 7

Where on the body are hinge joints found?

Answer 7

1. Elbow
2. Knee
3. Ankle

Question 8

Where on the body are ball and socket joints found?

Answer 8

1. Hip

2. Shoulder

Question 9

Identify the muscles located in the lower body

Answer 9

1. Hip flexors
2. Gluteals
3. Hamstring group
4. Quadriceps group
5. Gastrocnemius
6. Tibialis anterior

Question 10

What is the role of a ligaments?

Answer 10

Ligaments attach bone to bone and provide support at a joint.

Question 11

What is the role of tendons?

Answer 11

Tendons attach muscle to bone and allow movement around a joint.

Question 12

What freely movable joints does flexion/extension occur?

Answer 12

Flexion/extension occurs at the shoulder, elbow, hip and knee.

Question 13

What freely movable joint does abduction/adduction occur?

Answer 13

Abduction/adduction occurs at the shoulder.

Question 14

What freely movable joint does rotation occur?

Answer 14

Rotation occurs at the shoulder.

Question 15

What freely moveable joint does plantar flexion/ dorsiflexion occur?

Answer 15

Plantar flexion/ dorsiflexion occurs at the ankle.

Question 16

What is an agonist?

Answer 16

The muscle which causes the movement (prime mover).

For example when you extend your leg (knee joint), the quadriceps contract (agonist).

Question 17

What is an antagonist?

Answer 17

The muscle that relaxes to allow the agonist to contract.

Question 18

What does the term antagonistic pairs mean?

Answer 18

Muscles work in pairs to allow the body to move.

As one muscle contracts, the second muscle relaxes. As the second muscle contracts, the first muscle relaxes. This is known as antagonistic muscle action.

Question 19

What are the different types of muscle contractions?

Answer 19

Isotonic: where the muscles change lengths (shorten or lengthen). Concentric (muscles shorten) and Eccentric (muscles lengthen)

Isometric: The muscle remains at the same length. For example during a scrum a prop’s on the initial engage contracts his quadriceps but they do not lengthen or shorten. This would change after the initial impact though.

Question 20

What is the difference between concentric and eccentric (isotonic) contractions?

Answer 20

Concentric: muscle shortens
Eccentric: muscle lengthens

Question 21

Give three examples of an isometric muscle contraction in three different physical activities.

Answer 21

Gymnast balancing
Athlete/swimmer on starting blocks
Weight-lifter holding finishing position
Wicket-keeper waiting for delivery of the ball.

Question 22

Identify the pathway of air from the mouth to the alveoli.

Answer 22

Air travels through the:
Mouth/Nose
Trachea
Bronchi
Bronchioles
Lungs
Alveoli

Question 23

Where does gaseous exchange occur?

Answer 23

At the alveoli in the lungs or in the working muscles

Question 24

Breathing enables gaseous exchange to occur at the alveoli.

Outline how two features of the alveoli assist in gaseous exchange.

Answer 24

Award one mark for each of the following points up to a maximum of two marks.
• Large surface area of alveoli to allow larger volumes of gases / oxygen and carbon dioxide to move between the lungs and the bloodstream (1)
• Moist thin walls / one cell thick creating a short distance for diffusion / short diffusion pathway (1)
• Lots of capillaries around the alveoli so large area for gas exchange (1)
• Large blood supply to carry gases / oxygen and carbon dioxide (1)
• Movement of gas from high concentration to low concentration means there is a pressure gradient which allows diffusion to occur (1)
Accept any other suitable outline of how features of the alveoli assist in gaseous exchange. Answers must link the feature to how it assists in gaseous exchange.

Question 25

What carries oxygen around the body?

Answer 25

Red blood cells (specifically haemoglobin). Haemoglobin is the oxygen carrying capacity within red blood cells.

Fact: Haemoglobin can also carry carbon dioxide.

Question 26

Name the three blood vessels in the body.

Answer 26

1. Arteries
2. Veins
3. Capillaries

Question 27

Give the structures of arteries, veins and capillaries.

Answer 27

Arteries: Arteries are thick, muscular and have elastic walls to withstand pressure. They have a small lumen (internal diameter).

Veins: Veins have valves that stop back flow. Are not elastic (do not stretch or have a pulse). They have a thin wall, but have a large lumen (internal diameter)

Capillaries: The walls are one cell thick that allows gaseous exchange to occur. Very narrow - only one cell at a time.

Question 28

Give the functions of arteries, veins and capillaries.

Answer 28

Arteries:

Veins:

Capillaries:

Question 29

What is vasodilation?

Answer 29

When the blood vessels increase in diameter that increases blood flow around the body.

Question 30

What is vasoconstriction?

Answer 30

When the blood vessels decrease in diameter and restrict/reduce blood flow.

Question 31

How does the structure of arteries link to its function?

Answer 31

Carry blood away from the heart, with most (but not all) carrying bright red oxygenated blood. They have elastic walls that allow for it to withstand the pressure (from the heart pumping).

Question 32

How does the structure of veins link to its function?

Answer 32

They carry blood towards the heart, with most (but not all) carrying dark deoxygenated blood. They have no stretch and are thin-walled as they do not need to withstand large amounts of pressure. Veins have valves which prevent backflow of blood.

Question 33

How does the structure of cappilaries link to its function?

Answer 33

Capillaries have a large network of tiny vessels that link to arteries and veins. This allows for gaseous exchange to occur to working muscles around the body. They are very narrow that allows one red blood cell at a time. They have very thin walls (one cell thick) to allow rapid diffusion of substances into and out of the blood (oxygen and carbon dioxide).

Question 34

What are the names for the arteries and veins that enter and leave the heart?

Answer 34

Arteries: Pulmonary artery enters the heart transporting oxygenated blood to go to the heart. The Aorta leaves the heart to transport oxygenated blood around the body (to vital organs and muscles).

Veins: Pulmonary Vein leaves the heart transporting deoxygenated blood to the lungs. The Vena Cava transports deoxygenated blood from the vital organs and muscles to the heart.

Question 35

Name the four chambers to the heart

Answer 35

Atria (Left and right atria)

Ventricles (left and right ventricles)

Question 36

Name the valve that connects the atrium to the ventricles.

Answer 36

Atrioventricular valves

Question 37

Explain the cardiac cycle and pathway of blood from lungs to the working muscles (including diastole and systole.

Answer 37

The pulmonary vein receive oxygen via diffusion and gaseous exchange, and transports it to the heart (left atria). . The heart fills up with blood (diastole) then ejects it from through the atrioventricular valve to the left ventricle. Blood then gets ejected out of the chamber throught the aorta around the body (vital organs and working muscles).

Question 38

Explain the cardiac cycle and pathway of blood from working muscles to the lungs.

Answer 38

The capilarries receive deoxygenated blood from the working muscles. This is then transported in the vena cava to the heart (right atria). Blood is then transported to the right ventricle. The pulmonary artery transports blood away from the heart to the lungs, where it collects oxygen through diffusion at the alveoli and capillaries.

Question 39

What is stroke volume?

Answer 39

The volume of blood pumped out (leaving) the heart per beat.

Question 40

What is heart rate?

Answer 40

The amount of beats by the heart in one minute.

Question 41

What is cardiac output?

Answer 41

The volume of blood pumped around (leaving) the heart in one minute.

Question 42

What is the cardiac output of a performer who have a stroke volume of 70 mls and a heart rate of 70 beats per minute?

Answer 42

4900 mls/min or 4.9 L/min

Key tip: remember the units

Question 43

What is systole?

Answer 43

Term used to describe the contraction phase of the cardiac cycle.

Question 44

What is diastole?

Answer 44

Term used to describe the relaxation phase of the cardiac cycle.

Question 45

What is the function of haemoglobin?

Answer 45

Transports oxygen (as oxyhaemoglobin; also transports carbon dioxide).

Question 46

Name the two processes of breathing

Answer 46

1. Inspiration (Inhalation)

2. Expiration (Exhalation)

Question 47

What is the process inspiration?

Answer 47

Is the intake of air into the lungs, which is brought about by increasing the volume of the chest cavity.

Question 48

What is the process expiration?

Answer 48

Is the expulsion of air from the lungs through reducing the volume of the chest cavity.

Question 49

Name four factors that assist with gaseous exchange.

Answer 49

1. Thin cell walls/membranes
2. Short distance between membranes
3. Large surface area
4. Layer of moisture
5. Rich blood supply / lots of capillaries.

Question 50

Explain why oxygen diffuses into the blood.

Answer 50

Because concentration of oxygen is higher in the alveoli than in the blood.

Question 51

Name the breathing muscles used to inspire aid during rest.

Answer 51

Diaphragm and intercostal muscles

Question 52

Name the breathing muscles used to inspire aid during exercise.

Answer 52

Pectorals

Question 53

How is air expired during rest?

Answer 53

The diaphragm and intercostals relax and the chest cavity returns to its normal / resting size.

Question 54

Name the breathing muscles used to expire air during exercise.

Answer 54

Abdominals

Question 55

What does the term ‘tidal volume’ mean.

Answer 55

Is the amount of air that enters the lungs during normal inspiration at rest.

Question 56

What does the term ‘inspiratory reserve volume’ mean?

Answer 56

Is the amount of extra air inspired (above tidal volume) during a deep breath in.

(This can be as high as 3000 ml)

Question 57

What does the term ‘expiratory reserve volume’ mean?

Answer 57

Is the amount of extra air expired (above tidal volume) during a forceful breath out.

Question 58

What does the term ‘residual volume’ mean?

Answer 58

Is the amount of air left in the lungs following a maximal expiration. There is always some air remaining in the lungs.

Question 59

What is the average tidal volume?

Answer 59

500 ml. The same amount leaves the lungs during expiration.

Question 60

Describe the mechanics of inhalation at rest? (2 marks)

Answer 60

Diaphragm and intercostal muscles contract; chest volume increases; rib cage moves upwards and out air moves from higher pressure into in the lungs.

Question 61

Describe how the mechanics of breathing change during exercise. (2 marks)

Answer 61

Inspiration is assisted by the pectorals and sternocleidomastoid;

During expiration the rib cage is pulled down quicker to force air out quicker due to use of the abdominal muscles.

Question 62

What lung volume is used to increase the amount of air breathed in?

Answer 62

Inspiratory reserve volume

Question 63

What is the name of the amount of air left in the lungs after a full expiration?

Answer 63

Residual volume

Question 64

What is ‘aerobic exercise’?

Answer 64

Aerobic exercise is when oxygen is used to provide energy to the working muscles.

(Tip: Aer … Air … with oxygen)

Question 65

What is ‘anaerobic exercise’?

Answer 65

Anaerobic exercise is where the energy needed for the exercise is provided in the absence of oxygen.

Question 66

Give three examples of aerobic exercise.

Answer 66

Aerobic activities involve a low-moderate intensity for a prolonged period of time.

• Marathon runner
• Footballer
• Swimmer (long distance)
• Endurance cyclist

Question 67

Give three examples of anaerobic exercise.

Answer 67

Anaerobic activities involve high intensity for a short duration of time.

• Sprinting events (100m, 200, 400m, 4x100m relay)
• WInger in rugby would work anaerobically when sprinting. (also does work aerobically).
• Long jumper
• Swimmer (short distance)

Question 68

Aerobic respiration equation

Answer 68

Aerobic Exercise:

Glucose + Oxygen -> Energy + Carbon Dioxide + Water

Question 69

Anaerobic respiration equation

Answer 69

Anaerobic Exercise:

Glucose -> Energy + Lactic Acid

Question 70

What is lactic acid?

Answer 70

Lactic acid is a waste product of anaerobic exercise and cause fatigue.

Question 71

Is the marathon an aerobic or anaerobic event? Explain your answer. (3 marks)

Answer 71

• It is an Aerobic event.
• The athlete would need to utilise oxygen.
• A marathon lasts for a long duration (long distance)
• Low intensity when compared to sprinting.

Question 72

What is oxygen debt?

Answer 72

Oxygen debt is the temporary oxygen shortage in the body due to strenuous exercise.

Question 73

What is EPOC?

Answer 73

Excess Post-exercise Oxygen Consumpation

Increased rate of oxygen intake following strenuous activity. Due to the athlete maintaining an increased breathing rate after exercise to repay the debt.

Question 74

Why do we get an ‘oxygen debt’ after strenuous exercise?

Answer 74

Use of anaerobic exercise, so need to repay the oxygen not used.

Increased rate of oxygen intake following strenuous anaerobic exercise (producing lactic acid). Due to the athlete maintaining an increased breathing rate after exercise to repay the debt.

Question 75

What is the function of EPOC?

Answer 75

To remove lactic acid.

Question 76

Name the four methods of recovery from vigourous exercise.

Answer 76

1. Cool Down
2. Manipulation of diet - rehydration, carbohydrates for energy
3. Ice Baths / Massage - prevention of Delayed Onset of Muscle Soreness (DOMS)

Question 77

What is DOMS?

Answer 77

Delayed Onsent of Muscle Soreness

Question 78

What causes DOMS?

Answer 78

Strenuous activity invovling different exercises that utilise eccentric muscular contractionss (muscle fibres lengthen). This causes tiny muscle tears which release fluid.

Question 79

What are the immediate effects of exercise?

Answer 79

• The athlete becomes hot/sweaty/ red skin (Increased temperature).
• Increase in depth and frequency of breathing
• Increased heart rate

Question 80

What are the short-term effects of exercise?

Answer 80

• tiredness / fatigue
• Light headedness (dizzy)
• Nausea (feeling sick)
• Aching / delayed onset of muscle soreness (DOMS)/ cramp

Question 81

What are the long-term effects of exercise?

Answer 81

• Body shape may change (somatotype)
• Improvements in specific components of fitness
• Build muscluar strength
• Improved muscular endurance
• Improved speed
• Improve suppleness (flexibility)
• Build cardio-vascular endurance (aerobic endurance)
• Improve stamina (similar to above)
• Increase in the size of the heart (hypertrophy)
• Lower resting heart rate (bradycardia)

Understand how the componenents of fitness can be improved.

Question 82

Name the five main regions of the vertebral column

Answer 82

• Cervical (7 vertebrae)
• Thoracic (12 vertebrae)
• Lumbar (5 vertebrae)
• Sacrum (5 fused vertebrae)
• Coccyx (4 fused vertebrae)

Question 83

Name the four classification of bones

Answer 83

1. Long Bones
2. Short Bones
3. Flat Bones
4. Irregular Bones

Question 84

Explain the function of long bones.

Answer 84

Long bones are longer than they are wide. Therefore, long bones play a key part in leverage and movement. So therefore allow for large movements to take place.

Question 85

Explain the function of short bones.

Answer 85

Short bones are box-like in shape, like tarsals. These are designed for weight-bearing exercises.

Question 86

Explain the function of flat bones.

Answer 86

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Question 87

Explain the function of irregular bones.

Answer 87

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