| GRADUATE ATTRIBUTE | LEARNING OBJECTIVES |
| A. IN-DEPTH KNOWLEDGE OF THE FIELD OF STUDY | |
| A2. A broad understanding of the field of study, including how other disciplines relate to the field of study. | 1, 2, 3 |
| A3. A comprehensive and in-depth knowledge in the field of study. | 1, 2 |
| A5. An international perspective on the field of study. | |
| A7. An appreciation of the link between theory and practice. | |
| B. EFFECTIVE COMMUNICATION | |
| B1. The ability to collect, analyse and organise information and ideas and to convey those ideas clearly and fluently, in both written and spoken forms. | 1, 2, 3 |
| B2. The ability to interact effectively with others in order to work towards a common outcome. | 3 |
| B3. The ability to select and use the appropriate level, style and means of communication. | 1, 2 |
| B4. The ability to engage effectively and appropriately with information and communication technologies. | |
| B5. The ability to practise as part of an interdisciplinary team. | |
| C. INDEPENDENCE AND CREATIVITY | |
| C2. The ability to work and learn independently and effectively. | 1, 2 |
| C3. The ability to generate ideas and adapt innovatively to changing environments. | 1, 2 |
| C5. The ability to formulate and investigate problems, create solutions, innovate and improve current practices. | 2 |
| C6. The abilities and skills that provide a foundation for future leadership roles. | 3 |
| D. CRITICAL JUDGEMENT | |
| D2. The ability to apply critical reasoning to issues through independent thought and informed judgement. | 2 |
| D4. The ability to process material and to critically analyse and integrate information from a wide range of sources. | 2 |
| D5. The ability to evaluate opinions, make decisions and to reflect critically on the justifications for decisions using an evidence-based approach. | 3 |
| E. ETHICAL AND SOCIAL UNDERSTANDING | |
| E1. An understanding of social and civic responsibility. | |
| E3. An appreciation of the philosophical and social contexts of a discipline. | |
| E4. A knowledge and respect of ethics and ethical standards in relation to a major area of study. | |
| E5. A knowledge of other cultures and times and an appreciation of cultural diversity. | |
| E7. The ability to work effectively and sensitively across all areas of society. | |
| E8. An understanding of and respect for the roles and expertise of associated disciplines. | |
The text book for this course is: Cheng David K. “Fundamentals of Engineering Electromagnetics”, Addison-Wesley series in Electrical Engineering, 1993 |
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F. T. Ulaby, Fundamentals of Applied Electromagnetics, Prentice Hall International, London, 1999. |
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Students may also find the following library references useful:
D. M. Pozar, Microwave Engineering, Wiley, 1998.
D.K. Cheng, Field and Wave Electromagnetics, Addisson Wesley, 2nd ed. 1989.
Liang Chi Shen, Jin Au Kong, Applied Electromagnetism, 2nd ed., PWS Engineering, Massachusetts, 1987.
William H. Hayt, John A. Buck, Engineering Electromagnetics, 6th Edition, McGraw Hill, 2001.
S. Ramo, J.R. Whinnery & T.Van Duzer, Fields and Waves in Communication Electronics 3rd Edition, John Wiley, 1994.
Inan U.S. & Inan A.S., Engineering Electromagnetics, Addisson Wesley, 1999. |
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Lectures: As Usual
Tutorials: Will be used to reinforce understanding of the course material. This session is an opportunity for students to ask questions and get a one-on-one attention for their problems. Active student participation is expected. For 2007 the student problem demo seesion will continue. Students will be expected to demonstrate orally a problem selected randomly from the tutorial sheet for that session. A brief 1 on 1 (approximately five minute) discussion with the tutoring staff of a nominated problem will occur with the student being signed off or not. Students must accumulate 10 "signoffs" during the semester and on successfully completing the signoffs will receive 10% of the total assessment. This activity will only occur during tutorial sessions.
Demonsrations: The third lecture slot each week is a problem demonstration session, not a lecture. Students will note that there are no required hand-in problems for the tutorial sessions. Full solutions will be posted on the web the week or so after the tut. However, students often have difficulty in commencing a solution to a particular problem or even have problems understanding a solution. This session is designed to fill this gap and to give students an introduction to the problem, re-explaining the concept involved and other issues by partially solving some representative problems. It is important that students follow up on lecture and tutorial material by attending this session.
Pracs: Sudents should sign-up for and attend two practical sessions (commencing approx in week 4). Details will be announced in class and on the web. The pracs exemplify some of the theory covered in the course.
Experiments are considered an important part of the course and are compulsory. Performance will be assessed and will be based on (1) the work done in the laboratory, (2) the written report presenting the results obtained in the laboratory and (3) discussion of the results and the report with the tutor in charge. The two pracs for 2007 are:
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Overall mark in the range 75-84%
Generally make up sessions will be available for for the laboratory sessions towards the end of semester. However, once students sign up for a particular prac time they are expected to keep it and need to notify (by email) the course coordinator of any contemplated or unexpected changes to this arrangement.
All assessments are compulsory. Students who miss an assesment are required to document their case in writing to the course coordinator.
Note that assesment for ELEC7101 and ELEC3100 is different although with the same percentages as indicated above. Masters students will be given different examination papers in the mid-semester test and the final exam. Although some questions will be common, Masters students will be required to answer at least 1 more challenging problem.
This test will be insted of a tutorial session.
The test will only be on the transmission line part of the course (lectures 1-12), tutorial (1-4).
The session will be 1.5hours.
Students are reminded to bring a compass and eraser. Smith Charts will be provided.
The assessment for posgraduate students is different from undergraduates in that some questions in the exam will be different.
Students are permitted to use an EPSA approved and labelled non-programmable calculator in this examination. More details on EPSA approved calculators can be found at http://www.epsa.uq.edu.au/calculators.html. The use of unlabelled calculators is not permitted.
There will be three questions perhaps involving a Smith chart, but generally taken from the transmission line section of the course.
Students will be graded on their ability to solve an 3 unknown problems: The grading will take into account the accuracy as well as the approach taken towards providing a solution. All the intermediate steps in the solution have to be clearly identified, assumptions if any, should also be stated specifically where appropriate.
The final exam will assess material over the whole course, but with emphasis on that material covered after the mid semester test.
This exam will allow two sheets (four sides) of A4 paper for handwritten formulas. These sheets must only contain formulae. No solutions to solved problems, lecture notes, itemised lists or derivations will be allowed.
Students are permitted to use an EPSA approved and labelled non-programmable calculator in this examination. More details on EPSA approved calculators can be found at http://www.epsa.uq.edu.au/calculators.html. The use of unlabelled calculators is not permitted."
The three hour final will contain a mixture of short answer questions (question 1 -ten parts), and analytical questions (questions 2-6).
Students will be tested for the accuracy and approach to the solution of the problems both of which tests their grasp of the theory as well as their analytical ability in the problems. The grading will take into account the accuracy and approach taken in solving the problem. All questions will test the students' abilities in electromagnetics.
For postgraduate courses, examination questions will differ from undergradate courses in part of the paper.
An overview of the University’s assessment-related policies can be found on myAdvisor (http://www.uq.edu.au/myadvisor/index.html?page=2910).
Academic Integrity
It is the University's task to encourage ethical scholarship and to inform students and staff about the institutional standards of academic behaviour expected of them in learning, teaching and research. Students have a responsibility to maintain the highest standards of academic integrity in their work. Students must not cheat in examinations or other forms of assessment and must ensure they do not plagiarise.
Plagiarism
The University has adopted the following definition of plagiarism:
Plagiarism is the act of misrepresenting as one's own original work the ideas, interpretations, words or creative works of another. These include published and unpublished documents, designs, music, sounds, images, photographs, computer codes and ideas gained through working in a group. These ideas, interpretations, words or works may be found in print and/or electronic media.
Students are encouraged to read the UQ Academic Integrity and Plagiarism policy (http://www.uq.edu.au/hupp/index.html?page=25128) which makes a comprehensive statement about the University's approach to plagiarism, including the approved use of plagiarism detection software, the consequences of plagiarism and the principles associated with preventing plagiarism.
As a student you have a responsibility to incorporate feedback into your learning; make use of the assessment criteria that you are given; be aware of the rules, policies and other documents related to assessment; and provide teachers with feedback on their assessment practices.
There are certain steps you can take if you feel your result does not reflect your performance. Please refer to the myAdvisor web site. (http://www.uq.edu.au/myadvisor/index.html?page=2953)Further to the statement on academic integrity and plagiarism above, students are required to read and understand the ITEE policy on Student Misconduct (http://www.itee.uq.edu.au/about_ITEE/policies/student-misconduct.html).
Late Arrival or Non-attendance at Examinations
The policy and procedure for late arrival or non-attendance at centrally controlled examinations is set out in the University's Examinations policy (HUPP 3.30.5), sections 8 and 10.2.
The way in which late arrival at a School-controlled examination is dealt with will be at the discretion of the course coordinator, who may be guided by the policy for centrally controlled exams.
In the case that a student requests a special exam for a School-controlled exam, the request will be considered and, if allowed, the timing shall be determined by the course coordinator, in consultation with the School's Chief Examiner where necessary, and in accordance with HUPP 3.30.5. Unless otherwise indicated in the Course Profile, applications must be made in writing to the Head of School no later than one week after the exam. Late applications will not be accepted.
Where an adjustment is made to an accredited program, it is the responsibility of the relevant Faculty to liaise with professional and registration bodies regarding the acceptability of the change/s.
Below is a table showing the relationship between the learning objectives for this course and the broader graduate attributes developed, the learning activities used to develop each objective and the assessment task used to assess each objective.
| Learning Objectives | |||
| 1 | 2 | 3 | |
| Learning Activities | |||
| Transmission lines 1 & 2 (Lecture) |
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| Transmission lines 3 and 4 (Lecture) |
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| Tutorial #1 (Tutorial & problem demo) (Tutorial) |
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| Transmission lines 5 & 6 (Lecture) |
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| Tutorial #2 (Tutorial & Problem demo) (Tutorial) |
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| Transmission lines 7 & 8 (Lecture) |
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| Transmission Lines 9 & 10 (Lecture) |
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| Tutorial #3 (tutorial & problem demo) (Tutorial) |
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| Electromagnetics 11 & 12 (Lecture) |
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| Tutorial # 4 (Tutorial) |
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| Electromagnetics 13 & 14 (Lecture) |
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| Tutorial #5 (Tutorial) |
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| Electromagnetics 15 & 16 (Lecture) |
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| CLASS TEST on Transmission line material (Quiz) |
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| Electromagnetics 17 & 18 (Lecture) |
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| Tutorial #6 (Tutorial) |
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| Electromagnetics 19 & 20 (Lecture) |
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| Tutorial #7 (Tutorial) |
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| Electromagnetics 21 & 22 (Lecture) |
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| Tutorial #8 (Tutorial) |
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| Electromagnetics 23 & 24 (Lecture) |
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| Tutorial #9 (Tutorial) |
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| Radar 25 & 26 (Lecture) |
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| Tutorial #10 (Tutorial) |
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| Assessment Tasks | |||
| Problem demonstration |
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| Midsemester Exam |
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| Final Exam |
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| Learning Objectives | |||
| 1 | 2 | 3 | |
| Graduate Attributes | |||
| A IN-DEPTH KNOWLEDGE OF THE FIELD OF STUDY | |||
| A2. A broad understanding of the field of study, including how other disciplines relate to the field of study. |
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| A3. A comprehensive and in-depth knowledge in the field of study. |
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| A5. An international perspective on the field of study. | |||
| A7. An appreciation of the link between theory and practice. | |||
| B EFFECTIVE COMMUNICATION | |||
| B1. The ability to collect, analyse and organise information and ideas and to convey those ideas clearly and fluently, in both written and spoken forms. |
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| B2. The ability to interact effectively with others in order to work towards a common outcome. |
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| B3. The ability to select and use the appropriate level, style and means of communication. |
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| B4. The ability to engage effectively and appropriately with information and communication technologies. | |||
| B5. The ability to practise as part of an interdisciplinary team. | |||
| C INDEPENDENCE AND CREATIVITY | |||
| C2. The ability to work and learn independently and effectively. |
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| C3. The ability to generate ideas and adapt innovatively to changing environments. |
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| C5. The ability to formulate and investigate problems, create solutions, innovate and improve current practices. |
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| C6. The abilities and skills that provide a foundation for future leadership roles. |
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| D CRITICAL JUDGEMENT | |||
| D2. The ability to apply critical reasoning to issues through independent thought and informed judgement. |
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| D4. The ability to process material and to critically analyse and integrate information from a wide range of sources. |
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| D5. The ability to evaluate opinions, make decisions and to reflect critically on the justifications for decisions using an evidence-based approach. |
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| E ETHICAL AND SOCIAL UNDERSTANDING | |||
| E1. An understanding of social and civic responsibility. | |||
| E3. An appreciation of the philosophical and social contexts of a discipline. | |||
| E4. A knowledge and respect of ethics and ethical standards in relation to a major area of study. | |||
| E5. A knowledge of other cultures and times and an appreciation of cultural diversity. | |||
| E7. The ability to work effectively and sensitively across all areas of society. | |||
| E8. An understanding of and respect for the roles and expertise of associated disciplines. | |||
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Authorised by: Deputy Vice-Chancellor (Academic) Maintained by: Software Services Last Updated - 24 May , 2006 |