Students
MATH235 – Mathematics IIA
2014 – S1 Day
General Information
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| Unit convenor and teaching staff |
Unit convenor and teaching staff
Other Staff
Stuart Hawkins
Contact via stuart.hawkins@mq.edu.au
E7A 212
Monday or by appointment
Unit Convenor
Elena Vynogradova
Contact via elena.vynogradova@mq.edu.au
E7A 204
Tuesday, Wednesday or by appointment
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|---|---|
| Credit points |
Credit points
3
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| Prerequisites |
Prerequisites
MATH133 or MATH136
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| Corequisites |
Corequisites
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| Co-badged status |
Co-badged status
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| Unit description |
Unit description
The idea of a vector space first introduced in MATH136 and MATH133 is enriched in this unit by the introduction of an inner product. This leads to the important notion of orthogonality that underpins many areas of mathematics. The idea of linear transformations which transfer linearity from one space to another is also discussed. The results and techniques are then applied to problems such as approximation, quadratic forms and Fourier series. Differential and integral calculus involving functions of several real variables are discussed in greater depth than in MATH136 and MATH133. The ideas here are central to the development of mathematics in many different directions.
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Important Academic Dates
Information about important academic dates including deadlines for withdrawing from units are available at https://www.mq.edu.au/study/calendar-of-dates
Learning Outcomes
On successful completion of this unit, you will be able to:
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
- Expressing yourself clearly and logically in writing.
Assessment Tasks
| Name | Weighting | Due |
|---|---|---|
| 6 Assignments | 20% | weeks 3, 5, 7, 9, 11 and 13 |
| Exam | 60% | Exam period |
| One Test | 20% | Week 8 |
6 Assignments
Due: weeks 3, 5, 7, 9, 11 and 13
Weighting: 20%
Due in weeks 3, 5, 7, 9, 11 and 13.
On successful completion you will be able to:
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Exam
Due: Exam period
Weighting: 60%
On successful completion you will be able to:
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
One Test
Due: Week 8
Weighting: 20%
To be held in week 7.
On successful completion you will be able to:
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Delivery and Resources
The required textbook for Calculus part of MATH235 is:
- Hughes-Hallett, Gleason & McCallum, 2013; Calculus - Single & Multivariable; Wiley.
It is available from the CO-OP Bookshop on campus, among other places.
Digital versions can be obtained from the publisher; see here.
Other similar texts are available in the Library.
The following texts provide useful references for Algebra part of the course:
- Anton & Rorres; Elementary Linear Algebra: Applications version, 9th edition
- Lay; Linear Algebra and its Applications, 3rd edition.
Other similar texts are available in the Library.
The following online notes are a good source for additional material:
- Multivariable and Vector Analysis by W.W.L Chen
- Linear Algebra by W.W.L Chen
The online notes are intended primarily as a source of reference. These are not intended to be treated as the only source for learning.
Unit Schedule
| Week | Algebra | Calculus |
| 1 | Complex linear algebra | Sets and functions. Euclidean spaces. |
| 2 | transformations in Euclidean spaces | Continuity and limits. |
| 3 | Finite-dimensional vector spaces and linear transformations | Continuity and limits. |
| 4 | Basis and dimension. Rank-nullity theorem. | Directional and partial derivatives. Derivatives. |
| 5 | Eigenvalues and eigenvectors. | Directional and partial derivatives. Derivatives. |
| 6 | Real inner product spaces. | Derivatives of vector-valued functions. |
| 7 | Gram-Schmidt orthogonalization process. Orthonal projections. | The inverse function theorem. |
| 8 | Gram-Schmidt orthogonalization process. Orthonal projections. | The implicit function theorem |
| 9 | Change of basis in inner product spaces | Critical points & extrema. |
| 10 | Orthonormal diagonalization | Lagrange multipliers. |
| 11 | Applications of real inner product spaces | Multiple integrals. |
| 12 | Complex inner product spaces | Multiple integrals: Fubini's theorem and change of variables |
| 13 | Revision | Revision |
Policies and Procedures
Macquarie University policies and procedures are accessible from Policy Central. Students should be aware of the following policies in particular with regard to Learning and Teaching:
Academic Honesty Policy http://mq.edu.au/policy/docs/academic_honesty/policy.html
Assessment Policy http://mq.edu.au/policy/docs/assessment/policy.html
Grading Policy http://mq.edu.au/policy/docs/grading/policy.html
Grade Appeal Policy http://mq.edu.au/policy/docs/gradeappeal/policy.html
Grievance Management Policy http://mq.edu.au/policy/docs/grievance_management/policy.html
Disruption to Studies Policy http://www.mq.edu.au/policy/docs/disruption_studies/policy.html The Disruption to Studies Policy is effective from March 3 2014 and replaces the Special Consideration Policy.
In addition, a number of other policies can be found in the Learning and Teaching Category of Policy Central.
Student Code of Conduct
Macquarie University students have a responsibility to be familiar with the Student Code of Conduct: https://students.mq.edu.au/support/student_conduct/
Student Support
Macquarie University provides a range of support services for students. For details, visit http://students.mq.edu.au/support/
Learning Skills
Learning Skills (mq.edu.au/learningskills) provides academic writing resources and study strategies to improve your marks and take control of your study.
Student Services and Support
Students with a disability are encouraged to contact the Disability Service who can provide appropriate help with any issues that arise during their studies.
Student Enquiries
For all student enquiries, visit Student Connect at ask.mq.edu.au
IT Help
For help with University computer systems and technology, visit http://informatics.mq.edu.au/help/.
When using the University's IT, you must adhere to the Acceptable Use Policy. The policy applies to all who connect to the MQ network including students.
Graduate Capabilities
Capable of Professional and Personal Judgement and Initiative
We want our graduates to have emotional intelligence and sound interpersonal skills and to demonstrate discernment and common sense in their professional and personal judgement. They will exercise initiative as needed. They will be capable of risk assessment, and be able to handle ambiguity and complexity, enabling them to be adaptable in diverse and changing environments.
This graduate capability is supported by:
Learning outcome
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Commitment to Continuous Learning
Our graduates will have enquiring minds and a literate curiosity which will lead them to pursue knowledge for its own sake. They will continue to pursue learning in their careers and as they participate in the world. They will be capable of reflecting on their experiences and relationships with others and the environment, learning from them, and growing - personally, professionally and socially.
This graduate capability is supported by:
Assessment task
- 6 Assignments
Discipline Specific Knowledge and Skills
Our graduates will take with them the intellectual development, depth and breadth of knowledge, scholarly understanding, and specific subject content in their chosen fields to make them competent and confident in their subject or profession. They will be able to demonstrate, where relevant, professional technical competence and meet professional standards. They will be able to articulate the structure of knowledge of their discipline, be able to adapt discipline-specific knowledge to novel situations, and be able to contribute from their discipline to inter-disciplinary solutions to problems.
This graduate capability is supported by:
Learning outcomes
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
Assessment tasks
- 6 Assignments
- Exam
- One Test
Critical, Analytical and Integrative Thinking
We want our graduates to be capable of reasoning, questioning and analysing, and to integrate and synthesise learning and knowledge from a range of sources and environments; to be able to critique constraints, assumptions and limitations; to be able to think independently and systemically in relation to scholarly activity, in the workplace, and in the world. We want them to have a level of scientific and information technology literacy.
This graduate capability is supported by:
Learning outcomes
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Apply the learnt principles, concepts and techniques efficiently to solve practical and abstract problems across a range of areas in algebra, analysis and applied mathematics.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Assessment tasks
- 6 Assignments
- Exam
- One Test
Problem Solving and Research Capability
Our graduates should be capable of researching; of analysing, and interpreting and assessing data and information in various forms; of drawing connections across fields of knowledge; and they should be able to relate their knowledge to complex situations at work or in the world, in order to diagnose and solve problems. We want them to have the confidence to take the initiative in doing so, within an awareness of their own limitations.
This graduate capability is supported by:
Learning outcomes
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Assessment tasks
- 6 Assignments
- Exam
- One Test
Creative and Innovative
Our graduates will also be capable of creative thinking and of creating knowledge. They will be imaginative and open to experience and capable of innovation at work and in the community. We want them to be engaged in applying their critical, creative thinking.
This graduate capability is supported by:
Learning outcomes
- Demonstrate a well-developed knowledge of differential and integral calculus of functions of several real variables, real inner product vector spaces, complex vector spaces, concepts of orthogonality, linear transformations.
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Effective Communication
We want to develop in our students the ability to communicate and convey their views in forms effective with different audiences. We want our graduates to take with them the capability to read, listen, question, gather and evaluate information resources in a variety of formats, assess, write clearly, speak effectively, and to use visual communication and communication technologies as appropriate.
This graduate capability is supported by:
Learning outcome
- Understanding logical arguments and recognising any gaps or faults in such arguments.
Assessment tasks
- 6 Assignments
- Exam
- One Test
Extra requirements
In order to obtain a passing grade in this unit, students are required to demonstrate their mastery of the required basic skills and techniques by passing all two on-line quizzes. Students who do not meet this requirement will have their grade capped at F 49.
Satisfactory performance on supervised assessment tasks, such as the test and the final exam, is necessary to pass this unit. If there is a significant difference between a student's marks on supervised assessment tasks and on unsupervised assessment tasks, the scaling of these tasks may be adjusted when determining the final grade, to reflect more appropriately that student's performance on supervised tasks.