MTU Courses - MATH6040 - Technological Mathematics 201

Module Details

Module Code:	MATH6040
Title:	Technological Mathematics 201
Long Title:	Technological Mathematics 201
NFQ Level:	Fundamental
Valid From:	Semester 1 - 2014/15 ( September 2014 )

Duration:	1 Semester

Credits:	5

Field of Study:	4610 - Mathematics

Module Delivered in:	14 programme(s)

Module Description:	This module builds on the learner's previous knowledge and understanding of differential and integral calculus. New techniques and applications of differentiation are included. The learner is also introduced to the theory and applications of vectors and matrices.

Learning Outcomes
On successful completion of this module the learner will be able to:
#	Learning Outcome Description
LO1	Differentiate parametrically, implicitly, partially and solve related rates of change problems.
LO2	Apply vector algebra methods to problems involving forces and moments of forces.
LO3	Integrate by parts and by inverse trigonometric substitution; and apply integration methods to various applied problems.
LO4	Solve and analyse simultaneous equations using matrix algebra methods.

Dependencies
Module Recommendations This is prior learning (or a practical skill) that is strongly recommended before enrolment in this module. You may enrol in this module if you have not acquired the recommended learning but you will have considerable difficulty in passing (i.e. achieving the learning outcomes of) the module. While the prior learning is expressed as named MTU module(s) it also allows for learning (in another module or modules) which is equivalent to the learning specified in the named module(s).
Technological Mathematics 1 Technological Mathematics 2
Incompatible Modules These are modules which have learning outcomes that are too similar to the learning outcomes of this module. You may not earn additional credit for the same learning and therefore you may not enrol in this module if you have successfully completed any modules in the incompatible list.
No incompatible modules listed
Co-requisite Modules
No Co-requisite modules listed
Requirements This is prior learning (or a practical skill) that is mandatory before enrolment in this module is allowed. You may not enrol on this module if you have not acquired the learning specified in this section.
No requirements listed

Indicative Content
Differentiation Related rates of change. Differentiation of implicit functions and parametric functions. Partial differentiation.
Vector Algebra Magnitude and direction. Component form in two and three dimensions. Addition and subtraction of vectors: triangle and parallelogram laws. Scalar product, vector product. Application to resolution of forces, work done, moments.
Integration Techniques of integration including integration by parts and inverse trigonometric substitution. Applications of definite integrals: work done by variable force, expanding gas; centroid of a plane area; volume, mass and centre of gravity of solid of revolution.
Matrix Algebra Definitions and notation. Addition, subtraction, multiplication of matrices. Determinants. Matrix inversion. Application to the solution of simultaneous linear equations. Cramer's rule. The singular case, inconsistent equations.

Assessment Breakdown	%
Module Content & Assessment
Coursework	30.00%
End of Module Formal Examination	70.00%

Assessments

Coursework

Assessment Type	Short Answer Questions	% of Total Mark	15
Timing	Week 4	Learning Outcomes	1
Assessment Description Written Assessment - Differentiation

Assessment Type	Short Answer Questions	% of Total Mark	15
Timing	Week 8	Learning Outcomes	2
Assessment Description Written Assessment - Vectors

End of Module Formal Examination

Assessment Type	Formal Exam	% of Total Mark	70
Timing	End-of-Semester	Learning Outcomes	1,2,3,4
Assessment Description End-of-Semester Final Examination

Reassessment Requirement
Repeat examination Reassessment of this module will consist of a repeat examination. It is possible that there will also be a requirement to be reassessed in a coursework element.

The University reserves the right to alter the nature and timings of assessment

Module Workload

Workload: Full Time
Workload Type	Contact Type	Workload Description	Frequency	Average Weekly Learner Workload	Hours
Lecture	Contact	Theory	Every Week	3.00	3
Tutorial	Contact	Problem Solving	Every Week	1.00	1
Independent & Directed Learning (Non-contact)	Non Contact	Review of lecture material	Every Week	1.00	1
Independent & Directed Learning (Non-contact)	Non Contact	Completion of exercise sheets	Every Week	2.00	2
Total Hours					7.00
Total Weekly Learner Workload					7.00
Total Weekly Contact Hours					4.00

Workload: Part Time
Workload Type	Contact Type	Workload Description	Frequency	Average Weekly Learner Workload	Hours
Lecture	Contact	Theory	Every Week	2.50	2.5
Tutorial	Contact	Problem Solving	Every Second Week	0.50	1
Independent & Directed Learning (Non-contact)	Non Contact	Review of lecture material	Every Week	2.00	2
Independent & Directed Learning (Non-contact)	Non Contact	Completion of exercise sheets	Every Week	2.00	2
Total Hours					7.50
Total Weekly Learner Workload					7.00
Total Weekly Contact Hours					3.00

Recommended Book Resources
Module Resources
John Bird. (2010), Higher Engineering Mathematics, [ISBN: 978-1856177672].
Supplementary Book Resources
K.A. Stroud & Dexter J.Booth. (2007), Engineering Mathematics, 6th. Macmillan, [ISBN: 978-1403942463]. Glyn James. (2010), Modern Engineering Mathematics, 4th. Prentice Hall, [ISBN: 978-0273734130].
This module does not have any article/paper resources
Other Resources
Website, Module-specific Blackboard Materials, http://cit.blackboard.com Website, CIT Maths Online, http://mathsonline.cit.ie Website, Mathcentre. Mathematics Resource, http://www.mathcentre.ac.uk Website, Online Calculation Resource, http://www.wolframalpha.com Website, Mathematics Resource, http://mathworld.wolfram.com

Programme Code	Programme	Semester	Delivery
Module Delivered in
CR_EBENS_8	Bachelor of Engineering (Honours) in Building Energy Systems	3	Mandatory
CR_ESENT_8	Bachelor of Engineering (Honours) in Sustainable Energy Engineering	3	Mandatory
CR_EBIME_7	Bachelor of Engineering in Biomedical Engineering	3	Mandatory
CR_EBSEN_7	Bachelor of Engineering in Building Services Engineering	3	Mandatory
CR_CCIVL_7	Bachelor of Engineering in Civil Engineering	3	Mandatory
CR_CENVI_7	Bachelor of Engineering in Environmental Engineering	3	Mandatory
CR_EMECH_7	Bachelor of Engineering in Mechanical Engineering	3	Mandatory
CR_EENEN_7	Certificate in Environmental and Energy Engineering	1	Elective
CR_EMSCI_6	Certificate in Mechanical Science	2	Mandatory
CR_EBIME_6	Higher Certificate in Engineering in Biomedical Engineering	3	Mandatory
CR_EBSEN_6	Higher Certificate in Engineering in Building Services Engineering	3	Mandatory
CR_CCIVL_6	Higher Certificate in Engineering in Civil Engineering	3	Mandatory
CR_EMECH_6	Higher Certificate in Engineering in Mechanical Engineering	4	Mandatory
CR_EMECN_7	Parttime - Bachelor of Engineering in Mechanical Engineering	4	Group Elective 1