A Level Physical Education Why study A Level PE? A Level PE is for those students who enjoy and play or coach sport outside of school on a regular basis. The nature of the course allows you to explore the Physiology, Psychology and Sociology of the performance athlete and can lead to numerous career opportunities from physiotherapy to sports journalism. Qualification Codes AS Qualification H451 & H452 GCE Qualification H453 & H454 Specification available on OCR website: Entry Requirements We want students who participate in sport outside of school to at least club on a regular basis and have a real interest and enthusiasm for sport and the performance athlete. Students should gain a grade B or above at Science GCSE. Additionally, it is hugely advantageous to have studied GCSE PE; however, this can be discussed on an individual basis. Opportunities at Hayesfield Mixed Sixth Form Extra-curricular programme Fixtures Leadership opportunities Sports Council House Events Trips & visits (Gold Duke of Edinburgh Award)
The Course Overview, Examination and Specification As you will be aware, AS assessments no longer contribute to your full GCE (A2) grade. If you chose to only take PE to AS standard, this will be worth 40% of a full GCE (A2). Advance Subsidiary Level (AS) You will have three components to complete at AS Level, two theory components (01 & 02) and one practical component (03). H155 Theory Unit (70% AS Grade) This unit is worth 70% of your AS marks. It consists of two examinations, paper 01 (physiological factors affecting performance) and paper 02 (psychological and socio-cultural themes in physical education). These two papers will cover the following three areas: Anatomy and physiology Acquiring movement skills Socio-cultural studies H155 NEA Unit (30% AS Grade) This component (03) is entitled non-examined assessment and involves selecting one practical activity which you can be assessed in either as a coach or performer. You will be assessed at AS for your skills in relation to your chosen sport and this assessment will be worth 15% of your full AS qualification. In addition to your practical assessments, students must complete a synoptic talk (EAPI) on which they will reflect upon and plan for improving a performer in their chosen activity. This assessment is worth 15% of your full AS qualification. Activities available for assessment include: Boxing Dance Kayaking Squash Football Diving Lacrosse Swimming Athletics Gaelic Football Netball Table Tennis Badminton Golf Rock Climbing Tennis Baseball Gymnastics Rowing Trampolining Basketball Handball Rugby Volleyball Cricket Hockey Sculling Canoeing Equestrian Skiing Cycling Hurling Snowboarding
GCE (Full A2 Qualification) You will have four components to complete at GCE Level, three theory components (01, 02 & 03) and one practical component (03). H555 Theory Unit (70% GCE Grade) This unit is worth 70% of your GCE marks. It consists of three examinations, paper 01 (physiological factors affecting performance), paper 02 psychological factors affecting performance and paper 03 (socio-cultural issues in physical activity and sport). These two papers will cover the following three areas: Anatomy and physiology Acquiring movement skills Socio-cultural studies H555 NEA Unit (30% AS Grade) This component (03) is entitled non-examined assessment and involves selecting one practical activity which you can be assessed in either as a coach or performer. You will be assessed at GCE for your skills and competitive game play in relation to your chosen sport and this assessment will be worth 15% of your full AS qualification. In addition to your practical assessments, students must complete a synoptic talk (EAPI) on which they will reflect upon and plan for improving a performer in their chosen activity. This assessment is worth 15% of your full AS qualification. Activities available for assessment include: Boxing Dance Kayaking Squash Football Diving Lacrosse Swimming Athletics Gaelic Football Netball Table Tennis Badminton Golf Rock Climbing Tennis Baseball Gymnastics Rowing Trampolining Basketball Handball Rugby Volleyball Cricket Hockey Sculling Canoeing Equestrian Skiing Cycling Hurling Snowboarding At GCE standard, students should be demonstrating competitive skills across a developmental phase of months leading up to external moderation and should keep video evidence and a competitive log of their performances.
AS Course content Physiological factors affecting performance (DT) Psychological and socio-cultural themes in physical education (JMW & HDU) Applied Anatomy & Physiology Exercise Physiology Biomechanics & Modern Technologies Skill Acquisition (JMW) Sports Psychology (JMW) Sport & Society (HDU) A2 Course content Physiological factors affecting performance (DT) Psychological factors affecting performance (JMW) Socio-cultural issues in physical activity and sport (HDU Applied Anatomy & Physiology Exercise Physiology Biomechanics & Modern Technologies Skill Acquisition Sports Psychology Sport & Society Contemporary Issues in Physical Activity & Sport How will I learn? Learning will take place through a variety of methods including: Discussion Performance Presentation Independent projects Folder of notes Use of OCR Website file path: http://www.ocr.org.uk/qualifications/as-a-level-gce-physical-education-h155-h555-from-2016/ Expectations of A Level PE Students Theory Lessons To be on time to lessons and be focused and engaged within lessons Meet all deadlines set and work in line with Hayesfield s behaviour management policy To act on feedback given from teachers and make conscious efforts to improve Ensure you have access to textbooks in particular the course text which is highlighted below To complete all flipped learning homework tasks Make reference to resources provided in the Q drive
Practical Evidence To participate at club level in sport outside of school To attend at least one P6 PE session each week To provide video evidence at each termly assessment point To attend all internal and external moderation sessions To work on maintaining and developing general and specific fitness To keep and maintain your practical activity logs to demonstrate your competitive performances Reading List Title Author Publisher Other Information Course Textbook Course Revision Guide OCR AS PE Student Book (old specification) K Mackreth, D Carnell, et al Heinnmann 2 nd Edition Good for detail & coursework OCR PE for AS (old specification) Advanced PE for OCR AS Sport & PE Sport & PE a Complete Guide to GCSE (2 nd edition) G Thompson, N Wiggins, R James Hodder Education D Carnell, J Ierland, C Jones, K Mackreth, SV Wely Wesson, Wiggins, Thompson, Hartigan B Hodgson The Human Body S Parker DK Physical Education & the Study of Sport Heinemann Hodder & Stoughton Detailed Good for detail & coursework Course Text Theory/coursework detailed Hodder & Stoughton Good for basics Good for Physiology diagrams Davis, Bull, Roscoe & Roscoe Mosby Further reading Internet www.ocr.org.uk/ Exam board website- past papers, specification, guidance www.teachpe.com Resources, revision support www.pe4learning.com Resources and support
AS Physiological Factors Affecting Performance SKELETAL & MUSCULAR SYSTEMS Joints, movements and muscles Shoulder: flexion, extension, abduction, adduction, horizontal flexion/extension, medial and lateral rotation, circumduction deltoid, latissimus dorsi, pectoralis major, trapezius, teres minor. Elbow: flexion, extension biceps brachii, triceps brachii. Wrist: flexion, extension wrist flexors, wrist extensors. Hip: flexion, extension, abduction, adduction, medial and lateral rotation iliopsoas, gluteus maximus, medius and minimus, adductor longus, brevis and magnus. Knee: flexion, extension hamstring group: biceps femoris, semi-membranosus, semi-tendinosus; quadriceps group: rectus femoris, vastus lateralis, vastus intermedius and vastus medialis. Ankle: dorsi flexion, plantar flexion tibialis anterior, soleus, gastrocnemius. Planes of movement: frontal transverse sagittal. Functional roles of muscles and types of contraction Roles of muscles: agonist antagonist fixator. Types of contraction: isotonic concentric eccentric isometric. Analysis of movement Analyse movement with reference to: joint type movement produced agonist and antagonist muscles involved type of muscle contraction taking place.
CARDIOVASCULAR & RESPIRATORY SYSTEMS Cardiovascular system at rest Relationship between, and resting values for: heart rate stroke volume cardiac output methods of calculating the above. Cardiac cycle: diastole systole. Conduction system of the heart linked to the cardiac cycle. Cardiovascular system during exercise of differing intensities and during recovery Effect of differing intensities of exercise and recovery on: heart rate stroke volume cardiac output methods of calculating the above. Redistribution of cardiac output during exercise of differing intensities and during recovery: vascular shunt mechanism role of the vasomotor centre role of arterioles role of pre-capillary sphincters. Mechanisms of venous return during exercise of differing intensities and during recovery. Respiratory system at rest Regulation of heart rate during exercise: neural factors hormonal factors intrinsic factors. Relationship between and resting values for: breathing frequency tidal volume minute ventilation methods of calculating the above. Mechanics of breathing at rest and the muscles involved: diaphragm external intercostals. Respiratory system during exercise of differing intensities and during recovery Gas exchange at the alveoli at the muscles. Effect of differing intensities of exercise and recovery on: breathing frequency tidal volume minute ventilation. Mechanics of breathing during exercise of differing intensities and during recovery, including additional muscles involved: inspiration-sternocleidomastoid, pectoralis minor expiration-internal intercostals, rectus abdominis.
Regulation of breathing during exercise of different intensities and during recovery neural control chemical control. Effect of differing intensities of exercise and recovery on: -breathing frequency -tidal volume -minute ventilation Gas exchange at the alveoli and at the muscles changes in pressure gradient changes in dissociation of oxyhaemoglobin. DIET AND NUTRITION AND THEIR EFFECT ON PHYSICAL ACTIVITY AND PERFORMANCE Diet and nutrition Function and importance of the components of a healthy, balanced diet: carbohydrates proteins fats minerals vitamins fibre water. Energy intake and expenditure; energy balance in physical activity and performance. Ergogenic aids Use of ergogenic aids; potential benefits and risks: pharmacological aids: o anabolic steroids o erythropoietin (EPO) o human growth hormone (HGH) physiological aids: o blood doping, o intermittent hypoxic training (IHT) o cooling aids nutritional aids: o amount of food o composition of meals o timing of meals o hydration o glycogen/carbohydrate loading o creatine o caffeine o bicarbonate o nitrate.
PREPARATION & TRAINING METHODS IN RELATION TO IMPROVING & MAINTAINING PHYSICAL ACTIVITY & PERFORMANCE Aerobic training Aerobic capacity and maximal oxygen uptake (VO2max) How VO2 max is affected by: individual physiological make-up training age gender. Methods of evaluating aerobic capacity: laboratory test of VO2max using direct gas analysis NCF multi-stage fitness test Queen s College step test Cooper 12 minute run. Intensity and duration of training used to develop aerobic capacity: continuous training high intensity interval training (HIIT). The use of target heart rates as an intensity guide Physiological adaptations to aerobic training: cardiovascular respiratory muscular metabolic. Strength training Activities and sports in which aerobic capacity is a key fitness component. Types of strength: strength endurance maximum strength explosive/elastic strength static and dynamic strength. Factors that affect strength: fibre type cross sectional area of the muscle. Methods of evaluating each type of strength: grip strength dynamometer 1 Repetition Maximum(1RM) press up or sit-up test vertical jump test. Training to develop strength: repetitions sets resistance guidelines used to improve each type of strength use of multi-gym weights plyometrics circuit/interval training o work intensity
o work duration o relief interval o number of work/relief intervals. Physiological adaptations to strength training muscle and connective tissues neural metabolic. Flexibility training Activities and sports in which strength is a key fitness component. Types of flexibility: static flexibility (active and passive) dynamic flexibility. Factors that affect flexibility: type of joint length of surrounding connective tissue age gender. Methods of evaluating flexibility: sit and reach test goniometer. Training used to develop flexibility: passive stretching proprioceptive neuromuscular facilitation (PNF) static stretching dynamic stretching ballistic stretching isometric stretching. Physiological adaptations to flexibility training: muscle and connective tissues. Periodisation of Training Activities and sports in which flexibility is a key fitness component. Periodisation cycles: macrocycle mesocycle microcycle. Phases of training: preparatory competitive transition. Tapering to optimise performance. Impact of training on lifestyle and disease How to plan personal health and fitness programmes for each of the principles of training named above. The effect of training on lifestyle diseases: cardiovascular system : o coronary heart disease (CHD) o stroke o atherosclerosis
o heart attack. respiratory system o asthma o chronic obstructive pulmonary disease (COPD). BIOMECHANICL PRINCIPLES, LEVERS AND THE USE OF TECHNOLOGY Biomechanical principles Levers Define and apply Newton s laws of motion: Newton s first law: inertia Newton s second law: acceleration Newton s third law: reaction. Force: net force balanced and unbalanced force weight reaction friction air resistance factors affecting friction and air resistance and their manipulation in sporting performance free body diagrams showing vertical and horizontal forces acting on a body at an instant in time and the resulting motion calculations of force, momentum, acceleration and weight definition of centre of mass factors affecting the position of the centre of mass the relationship between centre of mass and stability. Components of a lever system: load effort fulcrum effort arm load arm. 1st class lever 2nd class lever 3rd class lever mechanical advantage of a 2nd class lever. Analysis through the use of technology Definitions and uses of: limb kinematics force plates wind tunnels. How each type of technology may be used to optimise performance in sport.
AS Psychological and Socio-cultural themes in PE SKILL ACQUISITION Classification of skills Types and methods of practice Transfer of skills Justification of placement of skills on continua: - difficulty (simple-complex) - environmental influence (open-closed) - pacing (self-paced-externally paced) - muscular involvement (gross-fine) - continuity (discrete-serial-continuous) -organisation (low - high). Characteristics and uses of each: - part practice - whole practice - whole-part-whole practice - progressive-part practice - massed practice - distributed practice - fixed practice - varied practice. Types of transfer: - positive - negative - proactive - retroactive - bilateral. Know and understand the ways of optimising the effect of positive transfer Principles and theories of learning movement skills Stages of learning Guidance Feedback Know and understand the ways of limiting the effect of negative transfer. Theories of learning: - operant conditioning - cognitive theory of learning - Bandura s theory of social/observational learning. Characteristics of the stages of learning: - cognitive - associative - autonomous. Types and uses of guidance: - verbal guidance - visual guidance - manual guidance - mechanical guidance. Advantages and disadvantages of using each type of guidance. Types and uses of feedback: - intrinsic - extrinsic - positive - negative - knowledge of performance - knowledge of results. Advantages and disadvantages of using each type of feedback.
SPORTS PSYCHOLOGY Individual differences Personality - definition of personality - theories of personality: o trait - extroversion/introversion, stable/unstable, type a/type b o social learning o interactionist. Attitudes - definition of attitude - factors affecting attitude formation - components of attitude: o cognitive o affective o behavioural - methods of attitude change: o persuasive communication o cognitive dissonance. Motivation - definitions of: o intrinsic motivation o extrinsic motivation - uses and effects of: o intrinsic motivation o extrinsic motivation. Arousal - definition of arousal - effects of arousal: o drive theory o inverted U theory, o catastrophe theory. Anxiety - definition of anxiety - types of anxiety: o state and trait - response to anxiety: o somatic and cognitive o zone of optimal functioning. Aggression - definition of aggression - theories of aggression: o instinct o social learning o frustration-aggression hypothesis o aggressive cue hypothesis. Social facilitation: - definition of social facilitation and social inhibition - the effect of an audience on: o introverts/extroverts
Group and team dynamics in sport o beginners/experts o simple/complex skills o gross/fine skills - evaluative apprehension - strategies to minimise social inhibition. Definition of a group The formation of groups and sports teams using stages of group development - forming - storming - norming - performing Steiner s model of group effectiveness Goal setting in sports performance Ringelmann effect and social loafing Importance and effectiveness of goal-setting - for attentional focus - persistence on tasks - raising confidence and self-efficacy - control of arousal and anxiety - to monitor performance - the SMART principle (Specific, Measurable, Achievable, Recorded, Time phased) SPORT AND SOCIETY Emergence and evolution of modern sport how social and cultural factors shaped the characteristics of, and participation in, sports and pastimes in pre-industrial Britain: - social class - gender - law and order - education/literacy - availability of time - availability of money - type and availability of transport. How social and cultural factors shaped the characteristics of, and participation in, sport in post 1850 industrial Britain: - social class o amateurism and professionalism - gender/changing status of women - law and order - education/literacy - availability of time / changing work conditions - availability of money - transport notably the railways - influence of public schools: o on the promotion and organisation of sports and games o on the promotion of ethics through sports and games o the cult of athleticism meaning, nature and impact o on the spread and export of games and the games ethic
How social factors shaped the characteristics of, and participation in, sport in 20th century Britain: - class o amateurism and professionalism - gender/changing role and status of women - law and order - education - availability of time - availability of money - transport. Global sporting events How contemporary factors are shaping the characteristics of, and participation in sport in the 21st century: - class o amateurism and professionalism - gender/changing role and status of women - law and order - education - availability of time - availability of money - transport - globalisation of sport o media coverage o freedom of movement for performers The modern Olympic Games: - background and aims (1896) - political exploitation of the Olympic Games o Berlin 1936, Third Reich Ideology o Mexico City 1968 Black Power demonstration o Munich 1972 Palestinian terrorism o Moscow 1980 boycott lead by USA o Los Angeles 1984 boycott by Soviet Union. Hosting global sporting events - positive and negative impacts on the host country/city of hosting a global sporting event (such as the Olympic Games or FIFA World Cup) o sporting o social o economic o political.
A2 only Physiological Factors Affecting Performance ENERGY FOR EXERCISE ATP and energy transfer Energy systems and ATP resynthesis ATP as energy currency Principle of energetically coupled reactions: Breakdown of ATP to ADP + P Resynthesis of ATP from ADP + P Energy systems: ATP-PC system Glycolytic system Aerobic system For each system: Type of reaction Chemical fuel used Specific site of the reaction Controlling enzyme ATP yield Specific stages within the system By-products ATP resynthesis during exercise of differing intensities and durations The energy continuum Predominant energy system used during exercise: How intensity and duration of exercise effect which system is used Interpretation of figures relating to the contribution of the three energy systems to exercise of different intensities and durations Interplay of energy systems during intermittent exercise and factors that affect this interplay: Intensity of exercise Duration of exercise Recovery periods Fitness levels The recovery process How the body returns to its pre-exercise state: EPOC Fast components of EPOC, the processes that occur and the duration: Replenishment of blood and muscle oxygen stores Resynthesis of ATP and PC Slow components of EPOC, the processes that occur and the duration: Elevated circulation Elevated ventilation Elevated body temperature Lactate removal and conversion to glycogen Effect of exercise intensity on EPOC and implications of the recovery process for planning exercise or training sessions.
ENVIRONMENTAL EFFECTS ON BODY SYSTEMS Exercise at altitude Exercise in the heat Effect of altitude on the CV and respiratory systems: Reduced arterial PO2 (partial pressure of oxygen) leading to impaired muscle O2 delivery Elevated HR and ventilation Acclimatisation, including the importance of timing arrival, at altitude (above 2400m) Effect of heat on the CV and respiratory systems: Temperature regulation CV drift INJURY PREVENTION AND THE REHABILITATION OF INJURY Acute and chronic injuries Injury prevention Responding to injuries and medical conditions in a sporting context Acute injuries resulting from a sudden stress to the body: Hard tissue injuries Soft tissue injuries Concussion Chronic injuries resulting from continuous stress to the body: Soft tissue injury Hard tissue injury Intrinsic risk factors: Individual variables Training effects Extrinsic risk factors: Poor technique/training Incorrect equipment/clothing Inappropriate intensity, duration or frequency of activity Assessing sports injuries using SALTAPS: See Ask Look Touch Active Passive Strength Acute management of soft tissue injuries using PRICE: Protection Rest Ice Compression Elevation Recognising concussion: IRB s Recognise and Remove 6 R s: Recognise Remove Refer
Rest Recover Return Rehabilitation of injury Treatment of common sporting injury: Injuries: Fractures simple, stress Joint injuries dislocation, sprain, torn cartilage Exercise induced muscle damage Treatment: Stretching Massage Heat, cold and contrast therapy s Anti-inflammatory drugs Physiotherapy Surgery LINEAR MOTION, ANGULAR MOTION, FLUID MECHANICS AND PROJECTILE MOTION Linear motion Definition of linear motion Creation of linear motion by the application of a direct force through the centre of mass Definitions, calculations and units of measurement for each of the following quantities of linear motion: Distance Displacement Speed Velocity Acceleration/deceleration Angular motion Plot and interpret graphs of linear motion: Distance/time graphs Speed/time graphs Velocity/time graphs Definition of angular motion Creation of angular motion through the application of eccentric force about one (or more) of the three axes of rotation: Longitudinal Frontal Transverse Definitions, calculations and units of measurement for each quantity of angular motion: Moment of inertia Angular velocity Angular momentum Factors affecting the size of the moment of inertia of a rotating body:
Mass of the body (or body part) Distribution of the mass from the axis of rotation The relationship between moment of inertia and angular velocity The conversion of angular momentum during flight in relation to the angular analogue of Newton s first law of motion Fluid mechanics Projectile motion Interpret graphs of angular velocity, moment of inertia and angular momentum. Factors that impact the magnitude of air resistance (on land) or drag (in water) on a body or object: Velocity Mass Frontal cross-sectional area Streamlining and shape Surface characteristics Factors affecting the horizontal distance travelled by a projectile: Height of release Speed of release Angle of release Free body diagrams showing the forces acting on a projectile once in flight: Weight Air resistance Resolution of forces acting on a projectile in flight, using the parallelogram of forces Patterns of flight paths as a consequence of the relative size of air resistance and weight Parabolic (symmetrical) flight path e.g. shot putt Non-parabolic (asymmetrical) flight path e.g. badminton shuttle The addition of lift to projectile through the application of Bernoulli s principle: Angles of attack to create upwards lift force on a projectile (discuss, javelin, ski jumper) Design of equipment to create downwards lift: F1 racing cars Track cycling Use of spin in sport to create a Magnus force, causing deviations to expected flight paths: Imparting spin to a projectile through the application of an eccentric force Types of spin (top spin, side spin, hook and slice)
A2 only Socio-cultural studies CONTEMPORARY ISSUES IN PHYSICAL ACTIVITY AND SPORT Ethics and deviance in sport Drugs and doping in sport: Legal supplements vs illegal drugs and doping Reasons why elite performers use illegal drugs/doping Consequences/ implications to sport, society and performers Strategies to stop the use of illegal drugs and doping Violence in sport: Causes in relation to players and spectators Implications to society, sport and performers Strategies to prevent violence in relation to players and spectators Gambling in sport: Match fixing/bribery Illegal sports betting Commercialisation and media Factors leading to the commercialisation of contemporary physical activity and sport: Growing public interest and spectatorship More media interest Professionalism Advertising Sponsorship Positive and negative impacts of the commercialisation of physical activity and sport: Society Individual sports Performers Spectators Coverage of sport by the media today and reasons for changes since the 1980s: TV Radio Written Press Internet Positive and negative effects of the media on sport: Individual sports Performers Spectators Relationship between sport and the media: Sport as a commodity Links with advertising and sponsorship ( golden triangle ) Routes to sporting excellence in the UK Development routes from talent ID through to elite performance The role of school, clubs, universities in contributing to elite sporting success The role of UK sport and National Institutes in developing sporting excellence/high performance sport
Strategies to address drop out/failure rates from elite development programmes/ at elite level Modern technology in sport Elite performance and the extent to which modern technology has increased participation, including increased/improved: Access Facilities Equipment Monitoring exercise Safety General participation and the extent to which modern technology has increased participation, including increased/improved: Access Facilities Equipment Monitoring exercise Safety General participation and the extent to which modern technology has limited or reduced participation, including increased/improved: Cost The range of alternatives to physical activity and sport Fair outcomes and the extent to which modern technology has increased fair play including: Better timing devices Increased accountability of officials More accurate decision making Improved detection of foul play Improved detection of doping Fair outcomes and the extent to which modern technology has limited or decreased fair play including: Access to modern technology can be limited Performance enhancing drug testing technology cannot keep up with new drug development Pressure on officials due to the exposure and scrutiny of their decisions Entertainment and the extent to which modern technology has increased fair play including: Action replays Multiple camera angles Slow motion technology Improved analysis Punditry Entertainment and the extent to which modern technology has limited or decreased fair play including: Interruption and delay Reduced live attendances
A2 only Sports Psychology Confidence and selfefficacy in sports performance Definitions of sports confidence and self-efficacy The impact of sports confidence on: Performance Participation Self-esteem Vealey s model of sports confidence: Trait sports confidence Competitive sports confidence State sports confidence Subjective perceptions of outcome Leadership in sport Bandura s theory of self-efficacy: Performance accomplishments Vicarious experiences Verbal persuasion Emotional arousal Characteristics of effective leaders Emergent or prescribed leaders Leadership styles: Autocratic Democratic Laissez-faire Theories of leadership: Trait perspective Social learning Interactionist Stress management to optimise performance Chelladurai s multi-dimentional model of sports leadership Definition and causes of stress Use of cognitive stress management techniques: Positive thinking/ self-talk Negative thought stopping Rational thinking Mental rehearsal Imagery Goal setting Mindfulness Use of somatic stress management techniques: Progressive muscular relaxation Biofeedback Centring technique Breathing control
Summer Task Title: The Application of Theory and Practice in Sport a) Select an image of a sports performer (see the example below). This should be a performer/performance situation in your chosen sport. b) Once you have selected an image you should produce a document that includes information in the following sections of the syllabus: Anatomy and Physiology Skill Acquisition Socio-cultural Studies For each of the above you should select three areas from the specification (summaries attached) that you feel can allow you to demonstrate a good understanding of your sport. Any additional research or information you can add to support your understanding is welcomed. Also include: Introduction Summary Diagrams to support understanding References Example Image for NETBALL Your work is due in on the first lesson back after the summer holidays. If you have any enquiries about A Level Physical Education, please do not hesitate to contact the PE department: Miss D. Tillson d.tillson@hayesfield.com Mrs J. White j.white@hayesfield.com