Computer Science

At Beverley Joint Sixth Form we will be offering Computer Science as a 2 year, A Level qualification. The content of A Level Computer Science is the similar across all examination boards. The course consists of Programming & System Development, 40%, Computer Architecture, Data, Communication & Applications 40%,  Programmed Solution to a Problem (NEA) 20%. We will be delivering the Eduqas specification for this qualification. It is a linear qualification, meaning that students will sit all of their exams at the end of the course.

This content will initially be taught a Beverley Grammar School, with 4-5 hours of in-class study. Students will be set approximately 1 hour of work from every lesson to be completed in their non-contact time. They will also have access to support sessions at both schools. If you have not achieve a grade 6 or above in GCSE computer science, it is still possible to take the course, however you will be expected to undertake additional independent work to upskill programming and mathematical skills.

Component 1 Programming and System Development: This component investigate programs, data structures, algorithms, logic, programming methodologies and the impact of computer science on society. It is worth 40% of the qualification in the form of a 2-hour 45-minute written exam.

Component 2 Computer Architecture, Data, Communication & Applications: This component investigates computer architecture, communication, data representation, organisation and structure of data, programs, algorithms, and software applications. It is worth 40% of the qualification in the form of a 2-hour 45-minute written exam.

Component 3 Programmed Solution to a Problem: Learners will discuss, investigate, design, prototype, refine and implement, test, and evaluate a computerised solution to a problem chosen by the candidate using original code (programming). There will be a computer program written in a suitable programming language, applying the principles of computation thinking to a practical programming problem. Using appropriate principles from an agile development approach to the project development. Students will document the agile development process and elements for each of the assessment categories will be evident throughout the project report. This is a substantial piece of work undertaken over an extended period of time in the form of a Non-Exam Assessment (NEA) project worth 20% of the qualification.

Why take Computer Science further?

Computers are widely used in all aspects of business, industry, government, education, leisure and the home. In this increasingly technological age, a study of computer science, and particularly how computers are used in the solution of a variety of problems, is not only valuable to the learners themselves but also essential to the future well-being of the country. Computer science integrates well with subjects across the curriculum. It demands both logical discipline and imaginative creativity in the selection and design of algorithms and the writing, testing, and debugging of programs; it relies on an understanding of the rules of language at a fundamental level; it encourages an awareness of the management and organisation of computer systems; it extends the learners’ horizons beyond the school or college environment in the appreciation of the effects of computer science on society and individuals. For these reasons, computer science is as relevant to a learner studying arts subjects as it is to one studying science subjects.

What skills will I get if I study Computer Science?

Having an A-Level Computer Science qualification is highly regarded when you venture into employment or to university. Having an A-Level computer science qualification opens you up to a world of possibilities, with so many avenues and sectors you can get into. Computer Science at A-level will prepare you for one of the many courses available at university.

Studying A-Level Computer Science, you will gain an in-depth knowledge and understanding of how computers work, from the microprocessor to memory, storage, operating systems, and network architectures. You will develop knowledge of programming theory and acquire practical skills in developing software programs. You will be analysing user requirements, design, and implementation of solutions. This specification provides a suitable foundation for the study of Computer Science or a related area through a range of higher education courses, progression to the next level of vocational qualifications or employment. In addition, the specification provides a coherent, satisfying, and worthwhile course of study for learners who do not progress to further study in this subject.

Students who wish to study for a Computer Science degree should combine it with A Level Mathematics as this is a pre-requisite at many universities. The programming project is of particular relevance to Further Education and Higher Education.

Career Opportunities:

Computer Science A Level is listed as a useful advance A-level qualification for studying degrees such as: Aeronautical Engineering, Biochemistry, Biology, Chemical Engineering, Chemistry, Civil Engineering, Computer Science, Biomedical Engineering, Economics, Electrical/Electronic Engineering, Engineering (General), Geological/Earth Sciences, Materials Science, Mathematics, Mechanical Engineering, Medicine, Optometry, Orthoptics, Physics, Psychology, Sociology.

It can lead onto careers in:

Software Development Database Administration; Computer Hardware Engineering; Software Engineering; Computer Systems Analysis, Computer Network Architecture; Web Development; Information Security Analysis; Information Research; Computer Programming; Computer and Information Systems Management; Project Management; Cybersecurity Engineer, Games Developer, Data and Analytics Engineer, Data Scientist.