# MATHEMATICS 1 - 2022/3

Module code: ENG1061

## Module Overview

A first level engineering mathematics module designed to briefly revise and then extend A-Level maths material and introduce more mathematical techniques to support engineering science modules

### Module provider

Mechanical Engineering Sciences

### Module Leader

KUEH Audrey (Maths)

### Number of Credits: 15

### ECTS Credits: 7.5

### Framework: FHEQ Level 4

### JACs code: G100

### Module cap (Maximum number of students): N/A

## Overall student workload

Independent Learning Hours: 73

Lecture Hours: 33

Tutorial Hours: 11

Captured Content: 33

## Module Availability

Semester 1

## Module content

Indicative content includes:

**Functions:**Concept of a function; domain, range. Odd, even and periodic functions. Inverse functions. Exponential and logarithmic functions and their properties, inverse trigonometric functions, hyperbolic functions and their inverses, solution of trigonometric and hyperbolic equations.**Differentiation:**Concept of derivative and rules of differentiation for a function of one variable. Applications to gradients, tangents and normals, extreme points and curve sketching.**Series and Limits:**Arithmetic and geometric progressions, Maclaurin and Taylor series, use of series in approximations, Newton Raphson method, various techniques for the evaluation of limits.**Integration:**Concept of indefinite integration as the inverse of differentiation and standard methods for integration such as substitution, integration by parts and integration of rational functions. Definite integration, area under curves, use of recurrence relationships. Applications of integration to curve lengths, surfaces and volumes of revolution, first moments and centroids, second moments and radii of gyration.**Vectors:**Vectors as quantities with magnitude and direction, graphical representation, addition and subtraction. Unit vectors; algebraic representation of vectors; addition subtraction, multiplication by constant; scalar (dot) product, projection, resolution into components; cross (vector) product. Vector functions of one variable, differentiation, applications.**Complex numbers**: Real and imaginary parts, polar form, Argand diagram, exp(jx), De Moivre’s theorem and applications.- Fourier Series: Periodic functions of period 2L.

## Assessment pattern

Assessment type | Unit of assessment | Weighting |
---|---|---|

Online Scheduled Summative Class Test | TEST (1 hr duration) | 20 |

Examination | EXAM ( 2 hrs duration) | 80 |

## Alternative Assessment

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## Assessment Strategy

The __assessment strategy__ is designed to provide students with the opportunity to demonstrate their knowledge of mathematical concepts and rules, and to show their skills in solving mathematical and engineering problems using appropriately selected techniques.

__Formative assessment and feedback__

Formative ‘assessment’ is a regular ongoing process all semester through work on the tutorial questions. Formative feedback is provided orally on a one-to-one basis and to the whole group in tutorial/problems classes, and through the issue using the VLE of fully worked solutions to tutorial problems some time after the class.

Summative assessment

The summative assessment consists of an online test and a final examination

## Module aims

- Consolidate and extend students' knowledge of basic mathematical concepts and techniques relevant to the solution of engineering problems,
- Make students aware of possible pitfalls
- Enable students to select appropriate methods of solution.
- Enable students to apply their mathematical knowledge and skills to engineering problems

## Learning outcomes

Attributes Developed | ||

1 | Use of vector algebra and applications of this to mechanics | KC |

2 | Manipulation of standard functions | KC |

3 | Use of complex numbers | KC |

4 | Use of the techniques of differential and integral calculus for functions of one variable | KC |

5 | Application of differentiation and integration to determine physical engineering properties (e.g. in mechanics) | KC |

6 | Manipulation of simple series and their use in e.g. approximations | KC |

7 | Representation of simple periodic functions in terms of trigonometric (Fourier) series. |

Attributes Developed

**C** - Cognitive/analytical

**K** - Subject knowledge

**T** - Transferable skills

**P** - Professional/Practical skills

## Methods of Teaching / Learning

The __learning and teaching__ strategy is designed to familiarise students with mathematical concepts and techniques, supported by extensive use of examples and applications; students themselves are engaged in the solution of problems and application of techniques in tutorials/problems classes.

The __learning and teaching__ methods include:

- Lectures (3 hrs/wk, for 11 weeks) to revise underpinning prior learning and bring students from varying background to a common level of knowledge, and to introduce new concepts and techniques and provide illustrative examples and applications.
- Recommended wider reading of matching sections of relevant recommended texts.
- Problem sheets of examples for technique selection and skill development.
- Tutorials/problems classes (1 hr/wk for 11 weeks) with staff and PG assistance for the development of skills in technique application and also in selection of appropriate techniques, using the above problems sheets; assistance is given both at individual level, and for the group on common areas of difficulty

Indicated Lecture Hours (which may also include seminars, tutorials, workshops and other contact time) are approximate and may include in-class tests where one or more of these are an assessment on the module. In-class tests are scheduled/organised separately to taught content and will be published on to student personal timetables, where they apply to taken modules, as soon as they are finalised by central administration. This will usually be after the initial publication of the teaching timetable for the relevant semester.

## Reading list

https://readinglists.surrey.ac.uk

Upon accessing the reading list, please search for the module using the module code: **ENG1061**

## Programmes this module appears in

Programme | Semester | Classification | Qualifying conditions |
---|---|---|---|

Biomedical Engineering MEng | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Mechanical Engineering MEng | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Aerospace Engineering MEng | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Aerospace Engineering BEng (Hons) | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Mechanical Engineering BEng (Hons) | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Automotive Engineering MEng | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Automotive Engineering BEng (Hons) | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Biomedical Engineering BEng (Hons) | 1 | Compulsory | A weighted aggregate mark of 40% is required to pass the module |

Please note that the information detailed within this record is accurate at the time of publishing and may be subject to change. This record contains information for the most up to date version of the programme / module for the 2022/3 academic year.