University of Chester

Programme Specification
Sports Sciences MSc
2016 - 2017

Master of Science

Sports Sciences

Sports Sciences

University of Chester

University of Chester

Parkgate Road Campus

Postgraduate (Taught)

Full-time and Part-time

Classroom / Laboratory,

1 year full-time

6 Years

Annual - September

C600

Yes

17a. Faculty

17b. Department

Medicine, Dentistry and Life Sciences Sport and Exercise Sciences

No definitive post-graduate subject benchmarks exist. The Programme has been aligned to the benchmark statements for Hospitality, Leisure, Sport and Tourism (Sports Studies sections) and the QAA framework for higher education qualification level 7 benchmarks (2010) to identify generic characteristics.

MSc. Sports Sciences

Saturday 1st January 2011

  The broad aims of the programme are as follows:

  • to enable students to develop further a range of cognitive skills and abilities through a coherent and specialist sports science education;
  • to enable students to develop a range of discipline-specific abilities and apply them to selected areas of special interest for more advanced study of the physiological, nutritional, biomechanical, strength and conditioning, and performance analysis influencing sports participation;
  • to provide opportunities for students to enhance their abilities in a range of transferable skills;
  • to enable students to acquire and apply a corpus of theoretical and empirical knowledge to the study of sport and exercise within the areas of sports physiology, nutrition, strength and conditioning, biomechanics and performance analysis;
  • to develop in students the basic competencies which will aid their personal development should they wish to pursue BASES accreditation.

The learning outcomes for each module clearly show the requirements for all students undertaking the course with regard to the range of programme content and the expected level of achievement commensurate with standard benchmarks (Hospitality, Leisure, Sport and Tourism (Sports Studies sections), QAA framework for higher education qualification level M benchmarks). The teaching, learning and assessment strategies for the programme are designed to facilitate the student to gain knowledge and develop a sound understanding of all theoretical components and, importantly, apply the theory base to inform sports science practice. Progression of the student’s knowledge and understanding is thus demonstrated through the learning outcomes, the variety of assessment strategies, the development of a learning portfolio and the level M related assessment marking criteria.


 

Throughout the programme a variety of different teaching methods are used to ensure that both intellectual and or, cognitive skills are developed at all stages as evidenced in the module aims and learning outcomes. Students are required to engage with current published research and critically review this to analyse material commensurate with the QAA guidelines (refer to Table 3). Seminars, group work and practicals will allow students to develop a critical awareness and appreciation of how research informs practice.

Practical Skills

The design of the programme ensures that theory and research are linked to the necessary skills of the sports science practitioner and researcher. The practical skills associated with each module have been mapped to the British Association of Sport and Exercise Sciences (BASES) guidelines for research and sports science accreditation to indicate where students gain experience and begin to develop a practitioner competency base.

Key Skills

  • Communication
  • Application of Number
  • Information Literacy and Technology
  • Improving own learning and performance
  • Working with others
  • Problem solving


Transferable Professional Skills

The programme is designed to facilitate the development of students' key transferable skills commensurate with the University guidelines and the Qualifications and Curriculum Authority directives. The model and descriptors established by the Qualifications and Curriculum Authority have been used in a mapping exercise by the programme team to indicate where and how key transferable skills are embedded within each module and hence the programme.

Effective communication skills will be inherent in all the modules and will be assessed throughout the assessment strategy. This will be specifically demonstrated in presentations and seminars.


Application of Numbers: students accessing the programme will be working at a level that requires them to be numerate. Examples are practical measurements, statistical analysis and evaluation of results. These skills will be built upon throughout the programme, particularly in the research-based modules.


Information Technology: the students IT skills, developed throughout each module, should be such as to enable them to access the University intranet, bibliographical databases and the Internet for academic and clinical studies, use the library effectively and perform literature searches and reviews. Their existing skills will be enhanced in the library induction and information skill session at the beginning of the programme, which will be specific to the University resources. The facilities of the wider University will also be open to the student. Study skills sessions are held at the beginning of each academic year and the services of the Learning Support Tutor will be available at other times. Students' IT skills will normally be evidenced in the production of word-processed assignments.


Improving own learning and performance: the entire programme is designed to facilitate the students in their development on both a personal and professional level. This will be evidenced via the assessment strategy.


Working with others: the student's ability to work with others will be demonstrated in the classroom, in practicals and working with athletes.


Problem solving: this area will be developed in all modules and will be demonstrated through the reflective analysis of practice, particularly in the applied practice modules, where the practitioners will be expected to discuss the effect of enhancing and developing practice in their specific area. The programme ensures that students are facilitated in their development of key skills. The mapping of key skills is shown in a grid format that demonstrates where the skills are addressed in each module.

The programme is modular in structure with the complete MSc. programme of study consisting of six taught modules each worth 20 credits (three core and three pathway-specific) and a research dissertation (12,000 words) or research project (5,000 words plus a viva voce) equivalent to 60 credits (three modules). A mixture of core and pathway-specific modules will be taught in the academic year.

Students following full-time post-graduate pathways (MSc. and Post-Graduate Diploma) will take the core modules 'Research Methods' (SS7301) and The Applied Sports Scientist' (SS7302) and one optional module from any of the pathways SS7306 \'Contemporary issues in sport physiology\' SS7321 ‘Contemporary issues in sports nutrition’, SS7327 ‘Contemporary issues in performance analysis of sport’,  SS7325 ‘Measurement techniques in sports biomechanics’,  SS7319 \'Contemporary issues in strength and conditioning\' before Christmas. After Christmas students on the MSc. programme will take the core module SS7315 \' Experiential learning in applied sports science\' and choose two optional modules (where prerequisites allow) from SS7308 'Applied Sports Physiology - Assessment and Evaluation of Sports Performance', SS7307 \'Optimising sports performance\', SS7328 'Performance Analysis - Assessment and Evaluation of Sports Performance' or  SS7329 ‘Measurement issues in applied performance analysis’, SS7326 'Biomechanical Assessment and Evaluation of Sports Performance' or SS7324 ‘Contemporary issues in sports biomechanics’ and SS7322 'Issues in elite athlete assessment and monitoring' or SS7320 ‘Physiology of training’. After registering for all the taught components they will begin their research dissertation (SS7310) or research project (SS7316) whilst students following the post-graduate diploma will not undertake a dissertation.

Although modular in structure the programme has been designed to facilitate progression and development in terms of knowledge, understanding, intellectual and applied skills of the sports scientist in line with the QAA Master's Level 7 criteria (2010). SS7302 \'The applied sports scientist - core competencies\' will introduce students to the key aspects of the applied role common to all pathways (physiology, strength and conditioning, biomechanics and performance analysis) areas of the programme and aid knowledge development of applied ethics, welfare, child protection and reflective skills, all of which are deemed core competencies by the British Association of Sport and Exercise Scientists (BASES). This module will also examine key skills of the sport scientist researcher and will introduce students to the researcher-practitioner model and develop critical analysis skills which will provide a foundation of knowledge to be utilised and built upon in the optional modules.

Certain prerequisites apply if both optional modules are chosen from the same pathway as the first module is a pre-requisite for the second. Placing pre-requisites on these later optional modules is seen as crucial by the programme team in order to ensure that students have developed an in-depth knowledge of the key theoretical areas and constructs associated with physiology, psychology, nutrition, strength and conditioning, biomechanics and performance analysis. Thus students are progressing from an empirical stance developed through in depth study of core theories and concepts to application.

For students wishing to exit with a M.Sc. Sports Science degree they must take SS7301, SS7302, SS7315, SS7306 or SS7321 or SS7319 or SS7327 or SS7325; SS7308 or SS723 or SS7322 or SS7328 or SS7326; SS7307 or SS7318 or SS7320 or SS7329 or SS7324, and undertake their dissertation (SS7310) or project (SS7316) in an appropriate area. They must attain at least 20 credits (in addition to SS7315) from at least 2 different areas of sports science to attain an MSc. in Sports Science.

Mod-Code Level Title Credit Single
SS7301 7 Research Methods in Sports Sciences 20 Comp
SS7302 7 The Applied Sports Scientist - Core Competencies 20 Comp
SS7303 7 Contemporary Issues in Sports Psychology 20 N/A
SS7304 7 Sports Psychology and Motor Control: An Applied Perspective 20 N/A
SS7305 7 Applied Sports Psychology - Practitioner Skill Development 20 N/A
SS7306 7 Contemporary Issues in Sports Physiology 20 Optional
SS7307 7 Optimising Sports Performance 20 Optional
SS7308 7 Applied Sports Physiology - Assessment and Evaluation of Sports Performance 20 Optional
SS7310 7 Research Dissertation in Sports Science 60 Optional
SS7315 7 Experiential Learning in Applied Sporting Performance 20 Comp
SS7316 7 Research Project in Sports Science 60 Optional
SS7318 7 Sports Nutrition 20 N/A
SS7319 7 Contemporary Issues in Strength and Conditioning 20 Optional
SS7320 7 Physiology of Training 20 Optional
SS7321 7 Contemporary Issues in Sports Nutrition 20 N/A
SS7322 7 Issues in Athlete Assessment and Monitoring 20 Optional
SS7323 7 Assessment Techniques in Sports Physiology and Nutrition 20 N/A
SS7324 7 Contemporary Issues in Sports Biomechanics 20 Optional
SS7325 7 Measurement Techniques in Sports Biomechanics 20 Optional
SS7326 7 Biomechanical Assessment and Evaluation of Sports Performance 20 Optional
SS7327 7 Contemporary Issues in Performance Analysis of Sport 20 Optional
SS7328 7 Performance Analysis - Assessment and Evaluation of Sports Performance 20 Optional
SS7329 7 Measurement Issues in Applied Performance Analysis 20 Optional

MSc. 180 credits (successful completion of 6 taught modules and the research dissertation 3 module equivalent).
Post-graduate Diploma 120 credits (successful completion of 6 taught modules)
Post-graduate Certificate 60 credits (successful completion of 3 of the 6 taught modules)

A typical background for an applicant will be someone who has a first degree (minimum requirement of an upper second class honours classification) in either Sport or Exercise Sciences, Sports Studies, Physiology, Coaching or Biomechanics. The University guidelines relating to APEL procedures will be used where students present with non-standard entry qualifications but can show equivalent knowledge. For example high level coaches (level 4 / 5) where sports science knowledge and understanding is equivalent to undergraduate study.

There are at present no definitive post-graduate subject specific guidelines therefore the generic Level 7 QAA criteria and subject specific benchmarks statements have been used to guide programme developments. Listed below are the seven QAA generic criteria (a-g) mapped to the programme.   

a) systematic understanding of knowledge; 

This will be developed in all modules of the programme.

b) critical awareness of current problems and/or new insights, much of which is at, or informed by, the forefront of their academic discipline, field of study, or area of professional practice;   

This will be developed in all modules but most notably in SS7302 The applied sports scientist, SS7306 Contemporary issues in sports physiology, SS7319 Contemporary issues in strength and conditioning, SS7324 Contemporary issues in sports biomechanics and SS7327 Contemporary issues in performance analysis.

c) a comprehensive understanding of techniques applicable to their own research or advanced scholarship;        

This will be developed in all modules but most notably SS7301 Research methods, SS7315 Experiential learning in applied sports science and SS7310 Research dissertation or SS7316 Research project.

d) originality in the application of knowledge, together with a practical understanding of how established techniques of research and enquiry are used to create and interpret knowledge in the discipline;        

This will be developed in all modules of the programme, but most notably in SS7306 Contemporary issues in sports physiology, SS7319 Contemporary issues in strength and conditioning, SS7324 Contemporary issues in sports biomechanics and SS7327 Contemporary issues in performance analysis.

e) conceptual understanding that enables the student: (i) to evaluate critically current research and advanced scholarship in the discipline (ii) to evaluate methodologies and develop critiques of them and, where appropriate, to propose new hypotheses;

This will be developed in all modules of the programme most notably in SS7302 The applied sports scientist, SS7306 Contemporary issues in sports physiology, SS7319 Contemporary issues in strength and conditioning, SS7324 Contemporary issues in sports biomechanics and SS7327 Contemporary issues in performance analysis for point (i)  and SS7301 Research methods and SS7310 Research dissertation or SS7316 research project for point (ii)

f) deal with complex issues both systematically and creatively, make sound judgements in the absence of complete data, and communicate their conclusions clearly to specialist and non-specialist audience;

This will developed in all modules but most notably in SS7308 Applied sports physiology - assessment and evaluation of sports performance, SS7323 Assessment techniques in sports physiology and nutrition, SS7322 Issues in athlete assessment and monitoring, SS7325 Measurement techniques in sports biomechanics, SS7326 Biomechanical assessment and evaluation of sports performance, SS7328 assessment and evaluation of sports performance and SS7329 Measurement issues in applied performance analysis.

g) demonstrate self-direction and originality in tackling and solving problems, and act autonomously in planning and implementing tasks at a professional or equivalent level;

Students will engage in this in all modules but specifically within SS7302 The applied sports scientist, SS7308 Applied sports physiology - assessment and evaluation of performance, SS7323 Assessment techniques in sports physiology and nutrition, SS7322 Issues in athlete assessment and monitoring, SS7325 Measurement techniques in sports biomechanics, SS7326 Biomechanical assessment and evaluation of sports performance, SS7328 assessment and evaluation of sports performance and SS7329 Measurement issues in applied performance analysis, SS7315 Experiential learning in applied sports science and SS7310  Research dissertation or SS7316 Research project.

The programme will incorporate a number of teaching methods including lead lectures, seminars, workshops and laboratory practicals. Throughout the programme students will develop a range of practical, academic and applied skills designed to facilitate progression and develop independent learners commensurate with the expectations of MSc. graduates in the area of sports science. For example as well as gaining experience through traditional approaches to learning such as seminars, demonstrations and laboratory practicals, students will also engage with case studies and participate in role playing exercises. These teaching methods will allow students to develop a deeper knowledge and understanding of key principles and critically reflect on information from a personal perspective forging a link between the theoretical principles raised and their application.

To ensure that students are given opportunities to engage with field experts, guest lecturers will be used to enhance the student experience. It is envisaged that these lectures will be delivered in an interactive environment where students are allowed to question, debate and discuss contemporary themes and emergent issues with sports scientists who bring differing views and experiences to those of the programme teaching team. Students will also have the opportunity to attend the staff Department Seminars.

The programme team is conscious of the fact that students continuing into post-graduate study are in many instances building upon previous knowledge. This can mean that the needs and requirements of each student might differ considerably depending upon the module and previous experience. To facilitate individual development and enhance the learning experiences of individuals each module incorporates a series of compulsory and optional formative assessment tasks. Compulsory formative assessment tasks will allow students to assess their knowledge and understanding and receive feedback from both staff and their peers where appropriate. Optional formative assessment tasks will utilise the Moodle module learning area to provide additional support and opportunities for students to engage in independent learning and assessment. These tasks will incorporate on-line self-tests, submitable activities and the discussion board. A bank of key resources related to post-graduate study skills will provide support in these instances. The summative assignment is seen as a central learning experience to each module and whilst designed to assess knowledge, understanding and achievement of learning outcomes the programme team have endeavoured to provide a range of assessment tasks which are embedded and linked to the module aims. Throughout the programme various assessment mediums will be used such as oral and poster presentations, research reports, critical analysis essays and reflective reports.

All taught modules will be assessed through coursework equivalent to 4000 - 5000 words per module. Coursework will include critical reflection essays, reviews of literature, poster and oral presentations, research reports and case study analysis. Examples of types of assessment by module are provided in the table below. 

 

 Module

Delivery mode 

Examples of experiential learning opportunities

Summative assessment  

SS7301 Research methods

Lead lectures Group work Practical

Data manipulation Research planning

Written Research Project/Dissertation proposal

SS7302 The Applied sports scientist

Lead lectures(including visiting lecturers)Group discussion Seminars Workshops

Case study analysis Role playing Practitioner skill reviews across disciplines

Oral presentation on case history profiling and reflective practice.

SS7306 Contemporary issues in sports physiology

Lead lectures, Seminars, Group work 

Seminar presentation

Assignment A: Critical review.

Assignment B: Article (magazine) for lay publication

SS7308 Applied sports physiology - assessment and evaluation of sports performance

Lead lectures, Seminars, Practicals, Group work

Group research projects

Assignment A: Research report journal article format.

Assignment B: Oral presentation of athlete feedback

SS7307 Optimising sports performance

Lead lectures, Seminars, Practicals, Workshops

Dietary analysis and prescription

Assignment A: Assessed seminar.

Assignment B: Critical review

SS7315 Experiential learning in applied sports science

Lead lectures, seminars, placement

Mock interview, CV preparation

Assignment A: Presentation. Assignment B: Case study

SS7310 Research dissertation

Tutorials

Non-assessed presentations, Peer reviews and observations

Research dissertation

SS7316 Research project

 Tutorials

 Non-assessed presentations. Peer reviews and observations

5,000-word journal style article plus viva voce defence of research project.

Graduates from this programme will have both generic and subject specific skills as identified below:

Key generic skills include the ability to: 

  • analyse key issues in a detached manner;
  • critically explore and reflect on research findings;
  • identify and define key issues for analysis;
  • design and apply appropriate research methods;
  • communicate results of research to peers and staff;
  • identify key research resources and references using a variety of mediums;
  • write clear and systematic reviews of literature;
  • plan and execute independent research projects;
  • write clear and concise research reports;
  • plan and deliver clear oral presentations;
  • work independently and in group situations.

Subject specific skills will include the ability to:

  • identify and describe the key competencies of the sports science practitioner;
  • identify and use key theoretical physiological and /or biomechanical and/or strength and conditioning and/or performance analysis perspectives to explain sports performance;
  • identify and analyse how contemporary themes in sports physiological and /or psychological and/or biomechanical and/or nutritional and/or strength and conditioning and/or performance analysis have been informed by field advancements;
  • identify and analyse key problems in sport and exercise;
  • identify and analyse the physiological demands of, and/or the strength and conditioning and/or performance characteristics and/or biomechanical factors which influence sports performance and factors effecting the performer;
  • with supervision work with an athlete to profile and plan an appropriate intervention strategy to enhance performance;
  • use specialist knowledge in sports physiology and /or biomechanics and/or strength and conditioning and/or performance analysis to plan and execute sports related research projects.

The generic and subject-specific skills outlined above will mean that graduates of the programme will be well qualified to meet the growing demand for appropriately qualified sports science specialists within the United Kingdom. Previous experience from the MSc. Applied Sports and Exercise Psychology and MSc. Exercise and Nutrition Science programme indicates that graduates are highly sought after in numerous diverse areas of the sport and exercise world including but not restricted to: continued study at PhD. level; research, lecturing and teaching in both further and higher education; management roles in governing bodies; sports science support officers for national governing bodies and sports coach UK; coaching positions and work within health promotion units.

Students are fully supported by a wide range of services both within the Faculty and in the wider University.  Admission requirements are clearly set out in promotional materials and due consideration is given to a policy of widening access, participation, diversity and equality. 

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