Course Title: Aerospace Mathematics 2

Part B: Course Detail

Teaching Period: Term2 2010

Course Code: MATH5158

Course Title: Aerospace Mathematics 2

School: 155T Life & Physical Sciences

Campus: City Campus

Program: C6011 - Advanced Diploma of Engineering (Aerospace)

Course Contact : Tatjana Grozdanovski

Course Contact Phone: +61 3 9925 2283

Course Contact Email:tatjana.grozdanovski@rmit.edu.au


Name and Contact Details of All Other Relevant Staff

Selva Venkatesan

Office: 51.07.05
Phone: 9925 4964
Email: selva.venkatesan@rmit.edu.au


Tatjana Grozdanovski

Office: 51.06.04
Phone: 99254689
Email: tatjana.grozdanovski@rmit..edu.au

Nominal Hours: 60

Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.

Pre-requisites and Co-requisites

MATH5156 Mathematics 1

Course Description

This course provides training in mathematics that underpins more advanced training required for employment as para-professional technicians.
Areas covered in this course include:
• Introduction to complex numbers
• Complex numbers applications
• Differential equations
• Vectors
• Partial derivatives
• Sequences and series
• Boolean Algebra.


National Codes, Titles, Elements and Performance Criteria

National Element Code & Title:

VBH156 Aerospace Mathematics 2


Learning Outcomes


1. Explain concepts and solve problems relating to complex numbers.
2. Perform exercises involving complex numbers.
3. Solve differential equations (DEs).
4. Solve vector problems.
5. Perform exercises involving partial derivatives.
6. Perform exercises involving sequences and series.
7. Perform exercises involving Boolean Algebra.


Details of Learning Activities

Students will be required to analyze and solve problems related to Integration, Complex Numbers and Boolean Algebra. Students will be expected to attend lecture/ tutorial classes,  sit two supervised written examinations and complete a written assignment.


Teaching Schedule

Week Date Topic Description

1

09 July Applications of Integration  Mean and root mean square
2 16 July Applications of Integration  Centroid of a region and Pappus’ Theorem
3 23 July Applications of Integration  Second moments of inertia
4 30 July Revision  
5 06 Aug  EXAM 1
 
6 13 Aug  Complex Numbers  Introduction, addition & subtraction, multiplication & conjugates
7 20 Aug  Complex Numbers  Division, solutions of eqns & geometric interpretations
8 27 Aug
 Complex Numbers  Polar and exponential form
       
9 03 Sept Vacation
 
10 10 Sept
Complex Numbers  Multiplication and division in polar/exp form & powers
11 17 Sept Complex Numbers Roots and regions


 
12 24 Sept  Boolean Algerbra  Exercise 1&2
13 01 Oct  Boolean Algerbra  Exercise 3
14 08 Oct  Boolean Algerbra  Exercise 4
15 15 Oct  Boolean Algerbra  Exercise 5
16 22 Oct  Boolean Algerbra  Exercise 6
17 29 Oct  REVISION  
18 05 Nov  EXAM 2  
19 12 Nov  EXAM 2  


Learning Resources

Prescribed Texts


References


Other Resources


Overview of Assessment

Assessment consists of:

A Mid-Semester test worth 35%

A Project worth 15% and

Final Examination worth 50%.


Assessment Tasks

One Assignment worth 15%

Mid-Semester Examination worth 35% 

Final Examination worth 50%


Assessment Matrix

Other Information

NOTE:    Dates and activities may alter.
               Students will be advised in advance by the lecturer in charge. 

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