GCSE Computer Science

Curriculum Leader:

Mr D Strange

Examination Board:

OCR

Assessment Requirements:



Exam 1 – Computer Systems – 80 Marks (40%)– 1 ½ Hour Paper taken in June Year 11



Exam 2 – Computational Thinking, Programming & Algorithms – 80 Marks (40%)– 1 ½ Hour

Paper taken in June Year 11



Programming Project – 40 Marks – Controlled Assessment (NEA) – Completed in lessons

Course Outline:

The course provides an in depth coverage of the science of how computer hardware,

programming logic and coding are used to create systems that solve problems. The

course requires students to use a range of Maths, logic and problem solving skills

alongside developing their computer science understanding. Students will study a range of

theory based work in lessons aimed at securing knowledge and understanding required for

the linear exam; as well as developing practical coding skills in preparation for, and

completion of, the programming project. As the course is viewed as a science qualification

it will also count as a subject that will contribute to the EBAC within the science bucket.

Unit Overviews:

Computer Systems

Computational Thinking,

Programming & Algorithms

Programming Project



Systems Architecture



Memory



Storage



Wired and Wireless Networks



Network Topology, Protocols

and Layers



System Security



System Software



Ethical, Legal, Cultural and

Environmental Concerns



Algorithms



Programming Techniques



Producing Robust Programmes



Computational Logic



Translators and Facilities of

languages



Data Representation



Programming

Techniques



Analysis



Design



Development



Testing and

Evaluation, and

Conclusions

Expectations:

Students should be open to the idea of theory based study involving book work and the

development of deeper knowledge and understanding of topics. Students will develop their

ability to answer exam based questions in written form alongside their practical use of

computers. Regular formal assessment will be used to encourage the recall and retention

of key information as it is learnt as well as the development of logic based approaches to

answering computational problems. Students will be expected to have a strong

independent desire to code and develop programming skills outside of lessons, as well as

regular completion of homework and revision for short, medium and long term

assessments and tests. It will be strongly encouraged that students taking this course

attend a weekly extra-curricular programming club to embed skills from lessons, this

allows for students to take the course without the necessity to own a computer at home.

Career Opportunities:

Computer Science has been an on-going development promoted with leading industry

experts and the government. The qualification is regarded as a high value science subject

and counts towards the Ebac. Qualification that many post 16 providers will see as

beneficial in accessing further and higher education courses. The course would be well

suited to students with an interest in Computer Programming, Engineering, Games

Designers, App Developers, Military and Public Services; as well as any career that values

logical thinkers and problem solving.

1: Print (“Hello”)

2: Print (”What is

your name”)

3: Input =

Username

4: Print (“Hello “ +

Username)