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Updated on: 28-08-2025 Modern life depends on engineers to develop, support and control the mechanical products and systems that are all around us, for example cars, machinery and manufacturing and transport systems. To make a contribution as an engineer, you must be able to draw on an important range of principles developed by early engineering scientists, such as Archimedes, Isaac Newton and James Watt. There is an increasing demand for ‘multi-skilled’ engineers who can apply principles from several engineering disciplines to develop solutions to engineering problems. This unit will develop your mathematical and physical scientific knowledge, and understanding to enable you to solve problems set in an engineering context. You will explore and apply the algebraic and trigonometric mathematical methods required to solve engineering problems. The mathematical and physical science principles covered in this unit’ or ‘the engineering principles covered in this unit. This sits at the heart of the qualification and gives you a foundation to support you in any engineering technician role, a trainee job role with an employer, or to help with your progression to higher education.

Updated on: 01/12/2023 Modern life depends on engineers to develop, support and control the mechanical products and systems that are all around us, for example cars, machinery and manufacturing and transport systems. To make a contribution as an engineer, you must be able to draw on an important range of principles developed by early engineering scientists, such as Archimedes, Isaac Newton and James Watt. There is an increasing demand for ‘multi-skilled’ engineers who can apply principles from several engineering disciplines to develop solutions to engineering problems. This unit will develop your mathematical and physical scientific knowledge, and understanding to enable you to solve problems set in an engineering context. You will explore and apply the algebraic and trigonometric mathematical methods required to solve engineering problems. The mathematical and physical science principles covered in this unit’ or ‘the engineering principles covered in this unit. This sits at the heart of the qualification and gives you a foundation to support you in any engineering technician role, a trainee job role with an employer, or to help with your progression to higher education.

Updated on: 01/12/2023 Modern life depends on engineers to develop, support and control the mechanical products and systems that are all around us, for example cars, machinery and manufacturing and transport systems. To make a contribution as an engineer, you must be able to draw on an important range of principles developed by early engineering scientists, such as Archimedes, Isaac Newton and James Watt. There is an increasing demand for ‘multi-skilled’ engineers who can apply principles from several engineering disciplines to develop solutions to engineering problems. This unit will develop your mathematical and physical scientific knowledge, and understanding to enable you to solve problems set in an engineering context. You will explore and apply the algebraic and trigonometric mathematical methods required to solve engineering problems. The mathematical and physical science principles covered in this unit’ or ‘the engineering principles covered in this unit. This sits at the heart of the qualification and gives you a foundation to support you in any engineering technician role, a trainee job role with an employer, or to help with your progression to higher education.

Updated on: 28-08-2025 This unit introduces students to the core concepts of programming with an introduction to algorithms and the characteristics of programming paradigms. Among the topics included in this unit are: introduction to algorithms, procedural, object-orientated & event-driven programming, security considerations, the integrated development environment and the debugging process.

Updated on: 11/09/2024 This unit introduces students to the core concepts of programming with an introduction to algorithms and the characteristics of programming paradigms. Among the topics included in this unit are: introduction to algorithms, procedural, object-orientated & event-driven programming, security considerations, the integrated development environment and the debugging process.

Updated on: 11/09/2024 This unit introduces students to the core concepts of programming with an introduction to algorithms and the characteristics of programming paradigms. Among the topics included in this unit are: introduction to algorithms, procedural, object-orientated & event-driven programming, security considerations, the integrated development environment and the debugging process.

Updated on: 29-04-2024 Computer-aided design (CAD) spans most areas of engineering, as well as aspects of other disciplines such as construction and media. Engineering is a multi-disciplinary vocational subject that uses CAD as part of other processes to develop (design and manufacture), improve and maintain cutting edge products and systems. For example, Formula 1® racing teams test all their cars on bespoke CAD packages to analyse performance and stresses, and make modifications to the cars as a result. In this unit, you will use CAD software and hardware to produce 2D and 3D drawings. You will acquire the skills to produce models of products, editing and modifying these, and exploring materials and their properties. You will output a portfolio of drawings, for example orthogonal, 3D shaded or solid model, and detail view drawings, to an international standard. As an engineer, it is important to be able to interpret and produce engineering drawings that help individuals and organisations to communicate ideas, design and manufacture products and improve product performance. Studying this unit will help you to progress to employment as a draftsperson and gain other technician-level roles in engineering. It also prepares you for an engineering-based apprenticeship, and for higher education.

Updated on: 15-12-2025 Computer-aided design (CAD) spans most areas of engineering, as well as aspects of other disciplines such as construction and media. Engineering is a multi-disciplinary vocational subject that uses CAD as part of other processes to develop (design and manufacture), improve and maintain cutting edge products and systems. For example, Formula 1® racing teams test all their cars on bespoke CAD packages to analyse performance and stresses, and make modifications to the cars as a result. In this unit, you will use CAD software and hardware to produce 2D and 3D drawings. You will acquire the skills to produce models of products, editing and modifying these, and exploring materials and their properties. You will output a portfolio of drawings, for example orthogonal, 3D shaded or solid model, and detail view drawings, to an international standard. As an engineer, it is important to be able to interpret and produce engineering drawings that help individuals and organisations to communicate ideas, design and manufacture products and improve product performance. Studying this unit will help you to progress to employment as a draftsperson and gain other technician-level roles in engineering. It also prepares you for an engineering-based apprenticeship, and for higher education.

Updated on: 01/12/2023 Computer-aided design (CAD) spans most areas of engineering, as well as aspects of other disciplines such as construction and media. Engineering is a multi-disciplinary vocational subject that uses CAD as part of other processes to develop (design and manufacture), improve and maintain cutting edge products and systems. For example, Formula 1® racing teams test all their cars on bespoke CAD packages to analyse performance and stresses, and make modifications to the cars as a result. In this unit, you will use CAD software and hardware to produce 2D and 3D drawings. You will acquire the skills to produce models of products, editing and modifying these, and exploring materials and their properties. You will output a portfolio of drawings, for example orthogonal, 3D shaded or solid model, and detail view drawings, to an international standard. As an engineer, it is important to be able to interpret and produce engineering drawings that help individuals and organisations to communicate ideas, design and manufacture products and improve product performance. Studying this unit will help you to progress to employment as a draftsperson and gain other technician-level roles in engineering. It also prepares you for an engineering-based apprenticeship, and for higher education.