MTH0003 | 2023 | University of Exeter

MODULE TITLE	Exploring Mathematics	CREDIT VALUE	15
MODULE CODE	MTH0003	MODULE CONVENER	Dr Houry Melkonian (Coordinator)

DURATION: TERM	1	2	3
DURATION: WEEKS	0	11	0

Number of Students Taking Module (anticipated)	30

DESCRIPTION - summary of the module content

This module is designed to develop an understanding of the nature of mathematics and mathematical thinking. It takes you on a voyage of exploration of how mathematics was invented and developed. For millennia BC, mathematics was used for various purposes such as in the study of planets and their motions as well as in construction and trading, and since then the study of mathematics was expanded and new branches were explored. The module aims to enhance your ability to use mathematical reasoning, abstraction and logic while enjoying the process of learning and performing mathematical procedures. In its first theme, it focuses on the concept of number sets and cardinality, where notions like, ‘infinity’ are discussed and explored through examples and simple proofs. The second theme develops an understanding of the mathematical language through an illustration of symbolic representations, patterns and relationships, such as the relationship between the number of spirals in a pine cone (a natural pattern) and the famous Fibonacci sequence (a number pattern), showing how those patterns are linked to other parts of mathematics such as geometry, arithmetic and probability. This is followed by a third theme about Euclidean geometry featuring some of its intriguing theorems and properties including simple geometrical proofs, it also covers some aspects of coordinate geometry and transformations.

Students are expected to have knowledge of Principles of Pure Mathematics (MTH0001) as a co-requisite.

AIMS - intentions of the module

This module aims to develop your knowledge and understanding of core mathematical skills, including the ability to use abstract ideas; formulate accurate and rigour justifications; provide concise and logical proofs; generalise concepts; form examples that demonstrate understanding of a topic. By studying a number of topics you will become familiar with the development stages of mathematics, and you will learn how to communicate ideas and solutions. The module is designed to broaden your horizon by exploring a number of divisions of mathematics and the connections between them.

INTENDED LEARNING OUTCOMES (ILOs) (see assessment section below for how ILOs will be assessed)

Module Specific Skills and Knowledge:

1. Demonstrate a general appreciation of the development of key mathematical concepts explored in this module

2. Reveal awareness of a selection of topics in mathematics and the connections between them

Discipline Specific Skills and Knowledge:

3. Demonstrate a basic knowledge and understanding of fundamental concepts necessary for progression to further studies in mathematics or in other quantitative degree pathways

4. Develop skills to reason and solve problems using abstract ideas, critique mathematical claims, test concepts by creating examples, understand the importance of logic in proofs, recognize underlying simple ideas common to many areas of mathematics

Personal and Key Transferable/ Employment Skills and Knowledge:

5. Acquire ability to: perform symbolic representation of concepts and generalise ideas, formulate and solve problems and communicate reasoning and solutions effectively in writing and oral presentation

6. Work in groups and learn to analyse and evaluate solutions

7. Demonstrate appropriate use of learning resources, demonstrate ability to use library resources

8. Demonstrate self-management and time management skills

SYLLABUS PLAN - summary of the structure and academic content of the module

Theme A: Numbers and cardinality of sets; mathematical logic [3 weeks]

Theme B: Patterns such as special numbers; mathematical proofs [3 weeks]

Theme C: Geometry: Euclidean geometry and geometrical proofs: transformations and symmetry [3 weeks]

LEARNING AND TEACHING

LEARNING ACTIVITIES AND TEACHING METHODS (given in hours of study time)

Scheduled Learning & Teaching Activities	33	Guided Independent Study	117	Placement / Study Abroad	0

DETAILS OF LEARNING ACTIVITIES AND TEACHING METHODS

Category	Hours of study time	Description
Scheduled learning & teaching activities	22	Lectures
Scheduled learning & teaching activities	11	Tutorials, in-class tests
Guided independent study	117	Further reading and preparation

ASSESSMENT

FORMATIVE ASSESSMENT - for feedback and development purposes; does not count towards module grade

Form of Assessment	Size of Assessment (e.g. duration/length)	ILOs Assessed	Feedback Method
In-class worked examples	10 x 1 hour	1-8	Provided solutions, exercises discussed in class

SUMMATIVE ASSESSMENT (% of credit)

Coursework	50	Written Exams	50	Practical Exams	0

DETAILS OF SUMMATIVE ASSESSMENT

Form of Assessment	% of Credit	Size of Assessment (e.g. duration/length)	ILOs Assessed	Feedback Method
3 tests	3 x 10	40 mins	1-8	Annotated scripts
Coursework	15	800 words	1-8	Written feedback
Presentation	5	5-10 mins	1-8	Written feedback
Written exam	50	1½ hours	1-8	Annotated scripts/feedback sheet

DETAILS OF RE-ASSESSMENT (where required by referral or deferral)

Original Form of Assessment	Form of Re-assessment	ILOs Re-assessed	Time Scale for Re-assessment
3 tests	3 tests (3 x 10%)	1-8	August Ref/Def period
Coursework	Coursework (15%)	1-8	August Ref/Def period
Presentation	Presentation (5%)	1-8	August Ref/Def period
Written exam	Written exam (50%)	1-8	August Ref/Def period

RE-ASSESSMENT NOTES

Deferral – if you have been deferred for any assessment, you will be expected to complete relevant deferred assessments as determined by the Mitigation Committee. The mark given for re-assessment taken as a result of deferral will not be capped and will be treated as it would be if it were your first attempt at the assessment.

Referral – if you have failed the module overall (i.e. a final overall module mark of less than 40%) you will be required to undertake re-assessments as described in the table above for any of the original assessments that you failed. The mark given for a re-assessment taken as a result of referral will be capped at 40%.

RESOURCES

INDICATIVE LEARNING RESOURCES - The following list is offered as an indication of the type & level of
information that you are expected to consult. Further guidance will be provided by the Module Convener

Basic reading/Web-based and electronic resources:

• ELE – College to provide hyperlink to appropriate pages

Other resources:

• ‘Exploring mathematics : problem-solving and proof’ by Daniel Grieser, Springer ,2018

Reading list for this module:

Type	Author	Title	Edition	Publisher	Year	ISBN
Set	Liebeck, M.	A Concise Introduction to Pure Mathematics	3rd	Chapman & Hall/CRC Press	2010	978-1439835982
Set	Houston, K.	How to Think Like a Mathematician: A Companion to Undergraduate Mathematics	1st	Cambridge University Press	2009	978-0521719780
Set	McGregor, C., Nimmo, J. & Stothers, W.	Fundamentals of University Mathematics	2nd	Horwood, Chichester	2000	000-1-898-56310-1
Set	Finney, R.L., Maurice, D., Weir, M. and Giordano, F.R.	Thomas' Calculus based on the original work by George B. Thomas, Jr.	10th or later	Addison-Wesley	2003	000-0-321-11636-4

CREDIT VALUE	15	ECTS VALUE	7.5

PRE-REQUISITE MODULES	MTH0001
CO-REQUISITE MODULES	MTH0001

NQF LEVEL (FHEQ)		AVAILABLE AS DISTANCE LEARNING	No
ORIGIN DATE	Thursday 29th July 2021	LAST REVISION DATE	Monday 5th June 2023

KEY WORDS SEARCH	Problem Solving, Critical Thinking, Logic, Geometry, Number Sets, Number Patterns

Exploring Mathematics - 2023 entry