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Masters Degrees (Evacuation)

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Aeromedical evacuation is the emergency transport of patients by fixed-wing aircraft and helicopters. This course is designed particularly for doctors, nurses and paramedics involved in the emergency transport of patients by fixed-wing aircraft and helicopters. Read more

What is aeromedical evacuation?

Aeromedical evacuation is the emergency transport of patients by fixed-wing aircraft and helicopters

Who is this course for?

This course is designed particularly for doctors, nurses and paramedics involved in the emergency transport of patients by fixed-wing aircraft and helicopters. It provides you with the knowledge and skills to manage aeromedical retrieval in domestic and international situations.

Course learning outcomes

Graduates of the Graduate Certificate of Aeromedical Retrieval will be able to:
*Integrate and apply specialist knowledge in the discipline of aeromedical retrievals within the depth of Australian and International health care, specific to the prehospital and secondary retrieval environment
*Review, analyse, consolidate and process information, data and evidence to undertake clinical assessment, management and evaluation of the person requiring aeromedical retrieval
*Communicate theoretical propositions, methodologies, conclusions and professional decisions through advanced literacy and numeracy skills to specialist and non-specialist audiences
*Demonstrate responsibility and accountability for continuing professional development requirements based on reflection on current skills, knowledge and attitudes and their application to the specialty of aeromedical retrieval.

Award title

GRADUATE CERTIFICATE OF AEROMEDICAL RETRIEVAL (GCertAeromedRet)

This course is available to International students via external or distance study only.

Entry requirements (Additional)

English band level 2 - the minimum English Language test scores you need are:
*Academic IELTS – 6.5 (no component lower than 6.0), OR
*TOEFL – 570 (plus minimum Test of Written English score of 4.5), OR
*TOEFL (internet based) – 90 (minimum writing score of 21), OR
*Pearson (PTE Academic) - 64

If you meet the academic requirements for a course, but not the minimum English requirements, you will be given the opportunity to take an English program to improve your skills in addition to an offer to study a degree at JCU. The JCU degree offer will be conditional upon the student gaining a certain grade in their English program. This combination of courses is called a packaged offer.
JCU’s English language provider is Union Institute of Languages (UIL). UIL have teaching centres on both the Townsville and Cairns campuses.

Minimum English Language Proficiency Requirements

Applicants of non-English speaking backgrounds must meet the English language proficiency requirements of Band 2 – Schedule II of the JCU Admissions Policy.

Why JCU?

James Cook University provides several programs unique to Australia. We have:
*The Anton Breinl Centre for Public Health and Tropical Medicine, which is one of the leading tropical research facilities in the world
*teaching staff awarded the Australian Learning Teaching Councils’ National Citation for Outstanding Contribution to Student Learning
*brand new Mosquito Research Facility
*cutting-edge teaching laboratories.

Application deadlines

*1st February for commencement in semester one (February)
*1st July for commencement in semester two (mid-year/July)

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MSc Fire Safety Engineering is concerned with the application of fire science into the practical context of built environment. Read more
MSc Fire Safety Engineering is concerned with the application of fire science into the practical context of built environment. This involves skills and knowledge crossing all areas of learning including fire chemistry, physics of heat transfer, biology and toxicity, structures, law and legislation, environmental impact, risk management and design. Combined into a single-discipline, this meets a challenge of modern industrial needs. Graduates have become leaders in a range of backgrounds from fire services to civil engineering to safety management. The course includes study of fires in buildings, engineering design projects and research methods. There are a range of options offered each year, including computational fluid dynamics, risk management, accidents and catastrophes, fire engineering solutions, incident command, fire safety law.

The course commences in Semester 1 with Fires in Buildings which examines: fundamental principles; mechanisms controlling spread of fires and fire development in enclosures; movement and smoke control; fire resistance and fire severity; human behaviour in fires and evacuation; the mechanism of fire suppression agents. Running in parallel, a Research Methods module supports the Dissertation, which is an in-depth study involving theoretical, computational, experimental or investigative analysis. The Dissertation is undertaken in Semester 3 together with the Engineering Design Project, which is an integration of themes of design, ICT and technology within a practical context requiring students to work in teams as well as individuals.

It is supported by an established research base (Centre for Research in Fire and Hazards Science) which builds on the training and educational programmes offered by the Institution of Fire Engineers. Full-time students can underpin their studies with a range of balancing modules. The remainder of the MSc is a series of options which may involve external speakers as well as expertise from our staff. Students should check availability if they wish to undertake any option in particular.

The course is designed for students who will eventually hold senior positions within the fire-related professions. Throughout the programme, emphasis will be placed on self-motivation, critical thinking and analytical depth. MSc Fire Safety Engineering is concerned with the study of fire development and prevention and the means by which its consequence may be reduced to a minimum in human, environmental and financial terms. The course emphasises Fire Safety Engineering in the context of buildings and infrastructure. It is supported by an established research base and builds on the training and educational programmes offered by the Institution of Fire Engineers.

The application of Fire Safety Engineering is multi-disciplinary and it is envisaged that, as in the professional world, you will carry out project work, which will facilitate dialogue between the Fire Engineer and other members of the design and management teams. It is the development of novel technological and engineering solutions within the often contradictory constraints of safety, economy and the law which pose the challenge in the course. The course is fully accredited by three professional institutions (CIBSE, EI and IFE) that play an active part in ensuring the course is developed to meet professional needs.

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This programme is designed for graduates in mathematics, engineering, or science with excellent numeracy skills, wishing to pursue careers in the application of mathematics, in traditional areas such as engineering and science and in service areas such as finance and banking, where knowledge of modern applications of mathematics would be advantageous. Read more
This programme is designed for graduates in mathematics, engineering, or science with excellent numeracy skills, wishing to pursue careers in the application of mathematics, in traditional areas such as engineering and science and in service areas such as finance and banking, where knowledge of modern applications of mathematics would be advantageous. The core philosophy of the programme is to equip students both with mathematics and its applications and with high-level scientific software and associated numerical skills. The Greenwich campus, near the financial district of Canary Wharf, enables the department to build ties with many modern engineering and applied mathematics practitioners enabling our students to become part of a wider group. The Leslie Comrie seminar series, inviting both academics and industrialists, allows you to interact with our external links creating an advantageous learning experience. We provide you the grounds for building a high profile of understanding of current research practices in the industry. Our classes contain interactive applications that enhance the learning experience by innovative teaching practices. Utilising research expertise within the department you will graduate with a strong understanding of numerical methods. You will also develop an understanding for further applicability in various fields of applied mathematics and engineering.

This programme is suitable both for fresh graduates and also for experienced professional practitioners who wish to further their skills. The programme core modules cover modern mathematical skills together with applications across different industries, and there are optional professional modules directly related to research expertise within the Faculty. This ensures that students have an advanced understanding of both theory and practice in their selected specialist areas. Students will gain knowledge of mathematical skills and applications, computational skills, and relevant professional experience, related to traditional engineering and science modelling, modern enterprise applications, finance, and service industries. They will gain an understanding of emerging applications. There will be hands-on training in various development tools and in the use of computational software related to their professional direction. Assessment takes the form of 100% coursework, based on applications of current market practices. A supervised thesis project takes place at the end of the last teaching term during the summer months. Projects are allocated in March and students are invited to undertake a project that provides genuine insight in an area of the research interests within the department. The programme is also available on a part-time basis.

Visit the website http://www2.gre.ac.uk/study/courses/pg/maths/appmaths

Mathematics

Postgraduate mathematics students benefit from award-winning teaching and great facilities. Our programmes are informed by world-renowned research and our links with industry ensure our students develop the academic and practical skills that will enhance their career prospects.

What you'll study

Full time
- Year 1:
Option Set 1

Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are required to choose 60 credits from this list of options.

Scientific Software Design and Development (15 credits)
Inverse Problems (15 credits)
Mathematics of Complex Systems (15 credits)
Reliability and Optimisation (15 credits)

Option Set 2
Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are also required to choose 60 credits from this list of options.

Principles and Practice of Evacuation Modelling (30 credits)
Principles and Practice of Fire Modelling (30 credits)

Option Set 3

Students are required to study the following compulsory courses.

English Language Support Course (for Postgraduate Students in the School of Computing and Mathematical Sciences)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematical Approaches to Risk Management (15 credits)
Mathematics and its Applications (30 credits)

Students are also required to choose 45 credits from this list of options.

Scientific Software Design and Development (15 credits)
Inverse Problems (15 credits)
Mathematics of Complex Systems (15 credits)
Reliability and Optimisation (15 credits)

Students are also required to choose 15 credits from this list of options.

Enterprise Software Engineering Development (15 credits)
Software Tools and Techniques (15 credits)
Actuarial Mathematics and Risk Modelling (15 credits)
Financial Time Series (15 credits)
Advanced Finite Difference Methods for Derivatives Pricing (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Inverse Problems (15 credits)
Mathematics and its Applications (30 credits)
Reliability and Optimisation (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

Scientific Software Design and Development (15 credits)
Masters Project (Maths) (60 credits)
Computational Methods (15 credits)
Mathematics of Complex Systems (15 credits)

Students are required to choose 15 credits from this list of options.

Advanced Finite Difference Methods for Derivatives Pricing (15 credits)
Mathematical Approaches to Risk Management (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

100% coursework: a supervised thesis project (during the summer months).

Career options

Our graduates are equipped with the tools to involve in many engineering applications and computational engineering sectors such as reliability engineering, risk management, complex engineering systems, fire safety and finance. Our expert seminar series gives you the opportunity to interact with leading figures from industry and academia and undertake projects of current industry practice. A postgraduate qualification is a major achievement and a milestone in your specialised career path leading to a professional career. The Department also offers a PhD programme which trains highly skilled candidates towards research careers in academia and industry. Our current collaborations for our PhD candidates lie with the STRIKE project for mathematical and computational applications.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Computing & Mathematical Sciences has an outstanding research record, for example, our Fire Safety Engineering Group has won the Queen's Anniversary Prize and the top award at the British Computer Society IT Awards for its EXODUS software. Read more
Computing & Mathematical Sciences has an outstanding research record, for example, our Fire Safety Engineering Group has won the Queen's Anniversary Prize and the top award at the British Computer Society IT Awards for its EXODUS software.

Each student normally first enrols on the MPhil degree. After completing the first year of the MPhil, the student's progress is reviewed, and, if considered satisfactory, the student is permitted to transfer to the PhD for a further two to three years of research. A student who does not wish to continue at this point may write up and submit the work to be considered for an MPhil degree.

MPhil/PhD students are usually provided with two supervisors, who guide them through the research. The supervisors are usually research staff from within the Department, although a supervisor may be appointed from another Department or from outside the university. The Department has a number of research groups focusing on practical and important real-life problems.

The Department also offers a one-year MSc by Research, please go online for more information.

Visit the website http://www2.gre.ac.uk/study/courses/pg/res/cms

What you'll study

If your research area does not fall exactly into one of the following categories, contact the Department to discuss your requirements.

- Thermal stress analysis
- Coupled structures and flow
- Electronic packaging
- Computer science
- Artificial intelligence
- Data mining
- Case-based reasoning
- Autonomic computing
- Operations research
- Internet technologies
- Multimedia
- E-learning
- Fire safety engineering and evacuation,
- Human behaviour, pedestrian dynamics, combustion and ventilation
- Parallel computing
- Continuum physics
- Algorithms and codes
- Computational fluid dynamics modelling

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Students are assessed through their research and a dissertation.

Career options

Graduates from this programme can pursue a wide range of career opportunities in industry, government and academia.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Be prepared to face the challenges of caring for the military and veteran populations. The Masters of Science from the CU College of Nursing with a specialty in Veteran and Military Health Care (VMHC) provides nurses with the opportunity to advance their careers in this growing, important, and in-demand field. Read more
Be prepared to face the challenges of caring for the military and veteran populations. The Masters of Science from the CU College of Nursing with a specialty in Veteran and Military Health Care (VMHC) provides nurses with the opportunity to advance their careers in this growing, important, and in-demand field. In addition to online course work, the VMHC specialty includes a 5-credit practicum custom-tailored to students’ intended area of expertise, so that they will be ready to serve the over 30 million in the Veterans Administration system and the Military Health System. The clinical practicum can focus on any area in veteran and military heath care, from PTSD and TBI, to flight nursing, aeromedical evacuation, battle field nursing, spinal rehab, recovery from blast injuries, or more.

VMHC MSN Competencies

Upon completion of the nursing program, students will be prepared to incorporate pertinent knowledge, values and abilities for direct and indirect provider roles to:
-Implement caring and competent nursing practice with veteran and military individuals, families and communities based on understanding the human experiences of health, illness and healing.
-Integrate the ethical use of technology and information systems to augment the human capacity for health, facilitate decision-making, support collaboration and foster communication.
-Promote health of local to global communities through promoting safe environments and safe and effective health care addressing the interaction among veteran and military service members, communities and their environmental contexts.
-Manage care to achieve quality, cost-effective and ethical outcomes in the delivery of health care for veteran and military service members, families and populations.
-Engage in leadership to promote social justice related to access, quality and socio-cultural acceptability of health care through relationship centered caring, advocacy and empowerment.
-Negotiate and adapt the delivery and management of health care and health care systems for veteran and military populations and environments.
-Practice relationship-centered caring through self-awareness, by developing and maintaining respectful relationships, communicating effectively, and integrating the influence of the human experience of health, illness and healing.
-Practice nursing reflectively, guided by theory, based on best evidence and integrating creative and critical thinking.
-Participate in generating and testing knowledge regarding nursing, health care and reflective caring practice.
-Actively engage in self-directed learning to maintain state of the art health care practice and to facilitate the education of future practitioners, paraprofessionals and healthy communities.​

For more information, see the website: http://www.ucdenver.edu/academics/colleges/nursing/programs-admissions/militaryhealthcare/Pages/Master%20of%20Science%20Veteran%20and%20Military%20Health%20Care.aspx

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MSc Fire Safety Engineering is concerned with the study of fire development and prevention and the means by which its consequence may be reduced to a minimum in human, environmental and financial terms. Read more
MSc Fire Safety Engineering is concerned with the study of fire development and prevention and the means by which its consequence may be reduced to a minimum in human, environmental and financial terms. This postgraduate degree emphasises Fire Safety Engineering in the context of buildings and infrastructure. This involves skills and knowledge crossing all areas of learning including fire chemistry, physics of heat transfer, biology and toxicity, structures, law and legislation, environmental impact, risk management and design. It is supported by an established research base and builds on the training and educational programmes offered by the Institution of Fire Engineers.

This course is designed for students who will eventually hold senior positions within the fire-related professions. Throughout the programme, emphasis will be placed on self-motivation, critical thinking and analytical depth. The application of Fire Safety Engineering is multi-disciplinary and, as in the professional world, you will carry out project work, which will facilitate dialogue between the Fire Engineer and other members of the design and management teams.

PROFESSIONAL ACCREDITATION

This MSc is accredited by both the Energy Institute (EI) and the Chartered Institution of Building Services Engineers (CIBSE) as fulfilling the further learning requirement for Chartered Engineer status, whilst also being a recognised course by the Institution of Fire Engineers (IFE).

LEARNING ENVIRONMENT AND ASSESSMENT

The course will be delivered through lectures, tutorials and practical exercises. Guided teaching and formal assessments will enhance the development of transferable skills such report-writing, maintenance of case notes, formal presentations, participation in discussions, ability to work to deadlines, computing skills, public speaking, scientific analysis, adherence and development of laboratory protocols and research methods.

There are different assessment methods employed across the modules. Some modules are assessed by both examination and coursework while others are assessed by coursework only, which may take the form of group projects, modelling exercises or time-controlled assignments or seminar presentations.

Benefiting from extensive research funding, we hold an enviable reputation for the quality of our teaching and research activities. All Fire courses are underpinned by the Research Centre in Fire and Hazards and benefit from the dedicated fire laboratories including equipment for small and intermediate scale facilities.

Our well-equipped modern fire engineering laboratory facilities comprise of state-of-the-art fire research equipment, used by experienced academics, are available for research and teaching. There are specialist facilities which include analytical and material characterisation equipment. A number of experiments, ranging from the investigation of fire retardants to the combustion properties of materials, and fire toxicity can be undertaken. We also have computational fluid dynamics facilities, that provide the use of CFD based fire modelling for research, teaching and consultancy.

FURTHER INFORMATION

Combined into a single-discipline, our Fire Safety Engineering Master’s degree meets a challenge of modern industrial needs. Graduates have become leaders in a range of backgrounds from fire services to civil engineering to safety management. The course is fully accredited by three professional institutions (CIBSE, EI and IFE) that play an active part in ensuring the course is developed to meet professional needs.

This course is supported by an established research base (Centre for Research in Fire and Hazards Science) which builds on the training and educational programmes offered by the Institution of Fire Engineers. Full-time students can underpin their studies with a range of balancing modules. The remainder of the MSc is a series of options which may involve external speakers as well as expertise from our staff. Students should check availability if they wish to undertake any option in particular.

MSc Fire Safety Engineering commences in Semester 1 with Fires in Buildings which examines: fundamental principles; mechanisms controlling spread of fires and fire development in enclosures; movement and smoke control; fire resistance and fire severity; human behaviour in fires and evacuation; the mechanism of fire suppression agents. Running in parallel, a Research Methods module supports the Dissertation, which is an in-depth study involving theoretical, computational, experimental or investigative analysis. The Dissertation is undertaken in Semester 3 together with the Engineering Design Project, which is an integration of themes of design, ICT and technology within a practical context requiring students to work in teams as well as individuals.

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Humber’s International Development graduate certificate program is designed for individuals who want to see the world and make a difference within it. Read more
Humber’s International Development graduate certificate program is designed for individuals who want to see the world and make a difference within it. In one year, this program provides you with the skills, knowledge and experience required to identify, grow, develop and manage international development and disaster relief projects anywhere in the world. Graduates may find themselves in some of the most difficult environments in the world, or they may work in developed countries changing policies to make a difference in the global south. Faculty are chosen for their field expertise and experience in international development – most continue to work with numerous international non-governmental organizations (NGOs) or United Nations agencies while teaching at Humber part time.

Course detail

Upon successful completion of the program, a graduate will:

• Contribute directly to project planning and the articulation of project goals having national or regional objectives, including the preparation or modification of proposals and bids, and the negotiation of program/project elements and budgets.
• Implement strategies to secure project funding.
• Establish administrative systems and procedures relating to program approval processes, reporting systems, technical assistance requirements, procurement, international travel and project termination/evacuation.
• Assist in the co-operative management with partners of specific program and project elements, including the development of implementation plans and strategies, in-course project monitoring and evaluation, and project modification as required.
• Assume responsibility for the management of key financial and physical resources associated with projects, including planning, procurement, monitoring and reporting on progress, reviewing and revising initial plans based on in-project performance, and preparing reports for further analysis and review.
• Demonstrate effective human resource management and labour relations skills relating to projects, including the recruitment and supervision of project personnel and effective interaction with external specialists or consultants acting under contract.
• Perform statistical analysis in a business environment.
• Interpret and apply national and international regulations.
• Demonstrate an understanding of individual and corporate ethics in a business environment, and the importance of effective leadership and team-building in joint ventures based on international co-operation.
• Communicate and work effectively in cross-cultural environments.
• Use industry specific language to describe challenges, solutions and opportunities across the ID arena.

Modules

Semester 1
• BUS 5012: Introduction to Development
• BUS 5013: Management Skills for International Development
• BUS 5014: Project Design and Planning
• BUS 5015: Management Information Systems
• BUS 5016: Communication Skills for Managers
• GEOG 5000: World Geography and Cultures

Semester 2
• BUS 5027: Project Monitoring and Evaluation
• BUS 5504: Project Management: Sectoral Studies
• BUS 5506: Project Design and Planning: Simulation
• BUS 5528: Humanitarian Assistance
• FIN 5502: Financial Management
• MGMT 5503: Operations Management

Semester 3
• BUS 5025: Special Topics in International Development
• BUS 5026: The Canadian Development Context
• BUS 5501: Issues in International Development
• WORK 5017: Career Orientation
• WORK 5018: International Development Project Placement

Work Placement

You will gain industry experience and build your international development network with an eight-week (minimum) work placement within the development sector. Many students choose to do this placement overseas. Placements are found through a combination of your interests and contacts with graduates and industry partners with the program co-ordinator’s support. The educational foundation for the work placement is established with a course in the Winter semester. This course covers creating resumés, LinkedIn profiles and cover letters, as well as covering the broad set of skills needed to be comfortable and safe working outside of Canada.

How to apply

Click here to apply: http://humber.ca/admissions/how-apply.html

Funding

For information on funding, please use the following link: http://humber.ca/admissions/financial-aid.html

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