The diversity of Geography as an academic subject is one of its great strengths. Past students have gone on to study popular degrees such as Medicine, Law, Economics, Architecture, Engineering as well as specialising in the Sciences. Those who enjoy the Geography AS Level may continue to study the subject at university, perhaps later specialising in either the human or physical strands, or they may opt for a related degree such as Geology, Environmental Science or Geopolitics amongst others.
Beyond university business leaders today value employees who have a wide array of skills, similar to the qualities developed in Geography, but they also seek to appoint people who can understand the global dimension of business in our globalised economy. Geo-located data is now at the centre of many economic decisions so people who understand the spatial extent of data and its applications are highly sought after.
As you would expect we offer a range of fieldwork opportunities which include day trips in the local region, a residential in the Lake District and, for students who wish to attend, we arrange a study visit to Iceland every two years. We also have good links with the Geographical Association and have access to their local events and meetings.
Geography GCSE Grade 5 or above if studied at GCSE.
The new OCR A Level Geography course favours an enquiry based approach which poses challenging questions about the world we live in. Students should demonstrate a keen interest in how places are changed and moulded by the humans which use them and a fascination with the processes and landforms found in the natural world. We also expect our students to:
- Communicate effectively by learning and using technical vocabulary
- Commit to independent research and reading around topics
- Carry out practical fieldwork in urban and physical settings
- Present, analyse and evaluate a range of geographical data.
Links with Other Subjects
Geography combines well with most subjects. Past and present students have combined Geography with a diverse range of other subjects which include the Sciences, Mathematics, English Language, Economics, Languages, History, Psychology and Sociology amongst others.
Method of Assessment
There are two exams at the end of the AS Geography course:
1. Landscape and Place: 2 hours (60% of the AS Level)
2. Geographical Debates: 1 hour 30 minutes (40% of the AS Level).
There are three exams at the end of the A Level course and the independent investigation:
1.Physical Systems: 1 hour 45 minutes (24% of the A Level)
2. Human Systems: 1 hour 45 minutes (24% of the A Level)
3. Geographical Debates: 2 hours 30 minutes (32% of the A Level).
Independent investigation: (20% of the A Level).
At AS Level students will study:
Landscape Systems: This topic introduces students to the integrated study of earth surface processes, landforms and resultant landscapes. Students will explore how a glacial landscape can be viewed as a system, how glacial landforms develop within this landscape and the influences of both climate and human activity on the landscape. As part of our study we will visit the Lake District for a short residential where we will carry out quantitative and qualitative fieldwork to support the learning in this unit and the fieldwork assessment in the exam.
Changing Spaces; Making places: People are at the heart of places, living their lives, forming attachments and making connections. Places are dynamic, multi-layered and the history and culture of a nation can be found in their buildings, public spaces and towns and cities. Our environment includes a wide variety of places, from rural to urban, small streets to megacities and diversity exists not only between but also within all of these places. Changing Spaces; Making Places allows students to look through a local lens to understand regional, national and global issues.
Disease Dilemmas: Diseases do not discriminate who becomes infected or develops symptoms. Diseases can be communicable and noncommunicable and a number of physical and human factors affect an individual’s and a community’s susceptibility to the risk. The global nature of some diseases in terms of their geographical spread and scale has encouraged international efforts to combat them. The causes of disease are often complex and the impacts even more so especially when dealing with these at epidemic and pandemic levels. Continued research into diseases and developments in pharmaceuticals and ‘our’ understanding of diseases offers opportunities to combat diseases, however unequal access to drugs and information has implications for communities and countries.
At A Level students will study:
Earth’s Life Support Systems: Water and carbon support life on Earth. 71% of the Earth’s surface is covered in water however 68% of the freshwater is locked in ice and glaciers. Water is moved and stored beneath our feet and this 30% is critically important to life on Earth. Forests, soils, oceans and the atmosphere all store carbon and yet they are threatened and altered by human activity. This will be examined in detail through the Tropical Rainforest and the Arctic Tundra case studies as well as at a global scale.
Global Connections: Through two overarching themes of global systems and global governance, students will investigate how these shape relationships between citizens, states and organisations around the world. Global systems, including those that regulate and order trade, financial transactions and 2 Geography migration, create interdependencies, which produce uneven geographies of winners and losers. States and non-state organisations respond to these flows and global systems, which can sometimes act to promote stability, growth and development, but which can also be the cause of inequalities, conflicts and injustice.
Hazardous Earth: Movement of the Earths land masses, from Pangaea to present day are evidence that forces beneath our feet are at work. Seismic and volcanic activity creates hazards as populations have grown and inhabited more of the Earth. Although hazardous, earthquakes and volcanoes create new landforms and can support life on Earth from flora and fauna to populations. As technology has evolved, the capacity to predict and mitigate against tectonic hazard events has improved although the impact of an event can leave communities and countries devastated.