Course overview
- Study period
- Semester 2, 2024 (22/07/2024 - 18/11/2024)
- Study level
- Undergraduate
- Location
- St Lucia
- Attendance mode
- In Person
- Units
- 2
- Administrative campus
- St Lucia
- Coordinating unit
- Chemistry & Molec Biosciences
This course builds on concepts that have been introduced in CHEM1100 (Chemistry 1) thereby developing the knowledge and understanding across inorganic, physical and organic chemistry necessary for advancement to the higher levels of study in chemistry, biochemistry and engineering courses. Core topics include: reaction profiles and kinetics, structure, reactivity and mechanisms, organic functional group chemistry, structural determination, acid and base chemistry and transition metal chemistry. This course is recommended for all students in the following programs: BSc, B Biomedical Science, B Biotechnology, B Engineering and B Occupational Health and Safety Science. Summer Semester Quota of 175. Preference will be given to 2nd or 3rd year students who are required to complete CHEM2050, CHEM2054 or BIOC2000 in the following semester 1 as part of their program and/or major progressions. Enrol through mySI-net.
This course builds on the material presented in CHEM1100.ᅠ It begins with an introduction ᅠto chemical kinetics and reactivity.ᅠ This section discusses the reaction kinetics of chemical species in a quantatative way. This develops concepts that will be needed for the rest of CHEM1200. Next is an introductionᅠto the structure of organic compounds, the compounds of carbon which are the building blocks from which all life is made.ᅠAn exploration is made of the implications of the three dimensional shape of these molecules and their stereochemistry. This knowledge isᅠthen utilised to further develop theᅠstructures and reactivities of organic molecules andᅠthe various reaction mechanisms possible for organic molecules.ᅠThe reactivity of a variety of organic molecules is discussed. CHEM1200 expands on the acid base chemistry from CHEM1100 and explores the applications of that knowledge to buffer systems which are fundamental toᅠmany areas of biology and chemistry.ᅠIn the second Organic chemistry section the chemistry of carbonyl compounds will be discussed,ᅠincluding an introduction to spectroscopy including Mass Spectrometry (MS) and Nuclear Magnetic Resonance (NMR).ᅠFinally, transition metal chemistry, an hitherto unexplored area of the periodic table in this course, is introduced.ᅠ ᅠThe topic coversᅠthe three dimensional and electronic structure of this extremely fascinating group of colourful and biologically important compounds.ᅠ
For all the lecture material to be delivered in CHEM1200, you are STRONGLY advised to revise your CHEM1100 notes and be familiar with the concepts taught in that course.
Course requirements
Assumed background
CHEM1100ᅠor equivalent. Students who do not have this background should not attempt this course, but should, instead, enrol in CHEM1100.
Enrolling in both CHEM1100 and CHEM1200 in the same semester is NOT recommended.
Prerequisites
You'll need to complete the following courses before enrolling in this one:
CHEM1100
Incompatible
You can't enrol in this course if you've already completed the following:
CHEM1221, CHEM1222, CHEM1010, CHEM1020, CHEM1021, CHEM1022
Restrictions
Summer Semester Quota of 175.
Course staff
Course coordinator
Lecturer
Timetable
The timetable for this course is available on the UQ Public Timetable.
Additional timetable information
Timetables are available at the link above. Please check your timetable regularly at the start of semester.
Aims and outcomes
This course will continue and expand on the topics covered in CHEM1100.ᅠᅠStudents will gain a furtherᅠunderstanding of theᅠcontent as listedᅠin the course goals.ᅠ Also, they will become more familiar with approaching science at a molecular level by gainingᅠan understanding of reactivity (kinetics), by developing further their knowledge and understanding of Organic chemistry, and utilise knowledge of acid base chemistry in the understanding of the chemistry of buffer systems and, finally, students will be introduced to the topic of Transition Metal chemistry.ᅠTheseᅠconcepts will provideᅠfurther strength to the foundations of a molecular toolbox that will serve them in any future attempt to understand science at a molecular level.
ᅠ
ᅠ
Learning outcomes
After successfully completing this course you should be able to:
LO1.
Apply the kinetics of non-reversible reactions to determine orders of reaction, reaction rates, rate constants and relate simple reaction mechanisms to rate laws.
LO2.
Represent selected reaction pathways using accepted organic chemistry conventions. Describe the shapes and bonding of organic molecules and use these to predict the reactivity of various functional groups and outcomes of selected reactions.
LO3.
Apply concepts related to weak acids and bases to aqueous solutions and buffers.
LO4.
Determine simple chemical structures by Mass Spectrometry (MS) and Nuclear Magnetic Resonance (NMR) Spectroscopy.
LO5.
Apply crystal field theory to the bonding and visible spectroscopy of transition metal compounds.
LO6.
Demonstrate practical competencies in a basic set of laboratory techniques.
Assessment
Assessment summary
| Category | Assessment task | Weight | Due date |
|---|---|---|---|
| Practical/ Demonstration |
Five Practicals
|
25% |
22/07/2024 - 25/10/2024
Assessment completed after the respective laboratory session |
| Participation/ Student contribution, Tutorial/ Problem Set | In-class active learning assessment | 15% |
22/07/2024 - 25/10/2024
Specific due dates for each in-class assessment item apply and will be provided at the start of the course |
| Examination |
Mid Semester Examination
|
20% |
In-semester Saturday 31/08/2024 - 14/09/2024
Advice about the date/time/venue will be provided around four weeks before the exam is scheduled. |
| Examination |
End Semester Examination
|
40% |
End of Semester Exam Period 2/11/2024 - 16/11/2024 |
A hurdle is an assessment requirement that must be satisfied in order to receive a specific grade for the course. Check the assessment details for more information about hurdle requirements.
Assessment details
Five Practicals
- Hurdle
- Mode
- Activity/ Performance
- Category
- Practical/ Demonstration
- Weight
- 25%
- Due date
22/07/2024 - 25/10/2024
Assessment completed after the respective laboratory session
- Learning outcomes
- L06
Task description
Completion of 5 experiments is required to obtain a passing grade (4 or higher). The laboratory classes are performed in scheduled practical sessions throughout semester. It is your responsibility to attend all 5 laboratory sessions at your scheduled times. If you miss a laboratory session, it is your responsibility to inform the laboratory coordinator and arrange a catch-up session.
OR
Chemistry Undergraduate Research Experience (CURE) An alternative to the traditional 5 experiments will be available to students who nominate for this and are selected. Numbers are restricted by the available lab space.
Use of Artificial Intelligence (AI)
This assessment task is to be completed in-person. The use of generative Artificial Intelligence (AI) tools will not be permitted. Any attempted use of Generative AI may constitute student misconduct under the Student Code of Conduct.
Hurdle requirements
See ADDITIONAL COURSE GRADING INFORMATION for the hurdle/s relating to this assessment item.Submission guidelines
Deferral or extension
You cannot defer or apply for an extension for this assessment.
See Additional Information for instructions on what to do if you miss a practical session.
In-class active learning assessment
- Mode
- Written
- Category
- Participation/ Student contribution, Tutorial/ Problem Set
- Weight
- 15%
- Due date
22/07/2024 - 25/10/2024
Specific due dates for each in-class assessment item apply and will be provided at the start of the course
- Learning outcomes
- L01, L02, L03, L04, L05
Task description
In-class active learning assessment will be available during the active learning contact. Information will be emailed to each student in the course and placed on Blackboard detailing how this assessment can be accessed. Full details on due dates will be provided in the first few weeks of semester and emailed to the UQ email address of each student. NOTE: there is NO MINIMUM number of assessment items you are required to pass and no minimum number of assessment items you are required to actually complete. If you only choose to do half the assessment items (or none) that is your choice. But, you will only receive the marks for the assessment you complete!
Deadlines for submission of each of the in-class assessment items are advertised well ahead of time and therefore there is no excuse for not submitting an attempt for a particular topic by that due date.
Use of Artificial Intelligence (AI)
This assessment task is to be completed in-person. The use of generative Artificial Intelligence (AI) tools will not be permitted. Any attempted use of Generative AI may constitute student misconduct under the Student Code of Conduct.
Submission guidelines
Assessment is to be submitted in class. Detailed instructions will be provided on Blackboard.
Deferral or extension
You may be able to apply for an extension.
The maximum extension allowed is 7 days. Extensions are given in multiples of 24 hours.
You are required to submit assessable items on time. If you fail to meet the submission deadline for any assessment item, then 10% of the maximum possible mark for the assessment item (assessment ‘marked from’ value) will be deducted as a late penalty for every day (or part day) late after the due date. For example, if you submit your assignment 1 hour late, you will be penalised 10%; if your assignment is 24.5 hours late, you will be penalised 20% (because it is late by one 24-hour period plus part of another 24-hour period). 10% will be deducted per day for up to 7 calendar days, at which point your submission will receive a mark of zero (0) unless an extension has been approved.
In most instances one or more hurdles will apply to your assessment item so you will need to submit it to fulfil the requirements of the course regardless of how late it is and the mark you are likely to be awarded.
Mid Semester Examination
- Hurdle
- In-person
- Mode
- Activity/ Performance, Written
- Category
- Examination
- Weight
- 20%
- Due date
In-semester Saturday
31/08/2024 - 14/09/2024
Advice about the date/time/venue will be provided around four weeks before the exam is scheduled.
- Learning outcomes
- L01, L02
Task description
A compulsory mid semester examination is based on work covered in the first set of lectures only (CHEM1200 lecture notes 1). The examination will be 1 hour (plus 10 minutes planning time) and will consist of a mixture of multiple choice and short answer questions. Results will be returned to students.
NOTE: Questions in the mid-semester test will be taken from lecture material delivered in week 1 until the middle of week 5 of the semester (Kinetics and Organic Chemistry 1). This is also indicated on Blackboard in the Learning Resources folder in the description of the folders.
The exam will be face to face, invigilated examination held on the UQ St. Lucia Campus.
Use of Artificial Intelligence (AI)
This assessment task is to be completed in-person. The use of generative Artificial Intelligence (AI) tools will not be permitted. Any attempted use of Generative AI may constitute student misconduct under the Student Code of Conduct.
Hurdle requirements
See ADDITIONAL COURSE GRADING INFORMATION for the hurdle/s relating to this assessment item.Exam details
| Planning time | 10 minutes |
|---|---|
| Duration | 60 minutes |
| Calculator options | (In person) Casio FX82 series or UQ approved , labelled calculator only |
| Open/closed book | Closed Book examination - no written materials permitted |
| Materials | A disassembled molecular model kit is permitted |
| Exam platform | Paper based |
| Invigilation | Invigilated in person |
Submission guidelines
Deferral or extension
You may be able to defer this exam.
End Semester Examination
- Hurdle
- In-person
- Mode
- Written
- Category
- Examination
- Weight
- 40%
- Due date
End of Semester Exam Period
2/11/2024 - 16/11/2024
- Other conditions
- Time limited.
- Learning outcomes
- L02, L03, L04, L05
Task description
A 2 hour examination containing both multiple choice questions and short answer questions, with 10 minute planning time. Marks are NOT deducted for an incorrect answer. Marks are NOT awarded for a blank answer. Marks are only given for a correct answer.
The end of semester examination will cover lecture material from the end of Week 5 of semester onwards (Acids and Bases, Organic Chemistry II and Transition Metal Chemistry). Lecture material examined in the mid-semester exam will not be included explicitly, although the material assessed on the end of semester examination builds on earlier material in the course.
The exam will be a face to face, invigilated examination held on UQ St. Lucia Campus.
Use of Artificial Intelligence (AI)
This assessment task is to be completed in-person. The use of generative Artificial Intelligence (AI) tools will not be permitted. Any attempted use of Generative AI may constitute student misconduct under the Student Code of Conduct.
Hurdle requirements
See ADDITIONAL COURSE GRADING INFORMATION for the hurdle/s relating to this assessment item.Exam details
| Planning time | 10 minutes |
|---|---|
| Duration | 120 minutes |
| Calculator options | (In person) Casio FX82 series or UQ approved , labelled calculator only |
| Open/closed book | Closed Book examination - no written materials permitted |
| Materials | A disassembled molecular model kit is permitted |
| Exam platform | Paper based |
| Invigilation | Invigilated in person |
Submission guidelines
Deferral or extension
You may be able to defer this exam.
Course grading
Full criteria for each grade is available in the Assessment Procedure.
| Grade | Description |
|---|---|
| 1 (Low Fail) |
Absence of evidence of achievement of course learning outcomes. Course grade description: Work of a very poor quality showing a very limited understanding of subject matter and a very low level of appreciation of issues covered in lecture and laboratory programs. The minimum percentage required for this grade is: 0% |
| 2 (Fail) |
Minimal evidence of achievement of course learning outcomes. Course grade description: Work of poor quality showing a very limited understanding of subject matter and a low level of appreciation of issues covered in lecture and laboratory programs. The minimum percentage required for this grade is: 30% |
| 3 (Marginal Fail) |
Demonstrated evidence of developing achievement of course learning outcomes Course grade description: Fail: Falls short of satisfying all basic requirements for a Pass. The minimum percentage required for this grade is: 45% |
| 4 (Pass) |
Demonstrated evidence of functional achievement of course learning outcomes. Course grade description: Work of fair quality demonstrating a basic understanding of most aspects of subject matter and a modest appreciation of issues covered in lecture and laboratory programs, but with serious deficiencies in some areas, at least good laboratory skills and a sound ability to interpret experimental results. The minimum percentage required for this grade is: 50% |
| 5 (Credit) |
Demonstrated evidence of proficient achievement of course learning outcomes. Course grade description: Work of a good quality demonstrating a good understanding of most subject matter and a competent level of appreciation of issues covered in lecture and laboratory programs, although possibly with some lapses and inadequacies, at least good laboratory skills and a sound ability to interpret experimental results. The minimum percentage required for this grade is: 65% |
| 6 (Distinction) |
Demonstrated evidence of advanced achievement of course learning outcomes. Course grade description: Work of a very good quality demonstrating a strong understanding of a wide, but not complete, range of subject matter and a good level of appreciation of issues, although not necessarily of the finer points, covered in lecture and laboratory programs, very good laboratory skills and a very good ability to interpret experimental results. The minimum percentage required for this grade is: 75% |
| 7 (High Distinction) |
Demonstrated evidence of exceptional achievement of course learning outcomes. Course grade description: Work of exceptional quality showing a deep understanding of a wide range of subject matter and a clear appreciation of issues covered in lecture and laboratory programs, very good laboratory skills and a very good ability to interpret experimental results. The minimum percentage required for this grade is: 85% |
Additional course grading information
Assessment Hurdles
In order to pass this course, you must meet ALL of the following requirements (if you do not meet these requirements, the maximum grade you will receive will be a 3):
1. You must achieve an overall course mark of 50% or higher; and
2. You must obtain a weighted average mark of 40% or more across the two examination components; and
3. You must obtain a weighted average mark of 40% or more across all other non-examination course assessment items and learning tasks; and
4. You must complete 100% of the laboratory component of the course (both the Experiments and the Report).
The maximum grade you will receive will be a 2 if you:
1. Obtain a weighted average mark of 30% or less across the two examination components; and/or
2. Obtain a weighted average mark of 30% or less across the non-examination course assessment items and learning tasks.
Supplementary assessment
Supplementary assessment is available for this course.
Should you fail a course with a grade of 3, you may be eligible for supplementary assessment. Refer to my.UQ for information on supplementary assessment and how to apply.
Supplementary assessment provides an additional opportunity to demonstrate you have achieved all the required learning outcomes for a course.
If you apply and are granted supplementary assessment, the type of supplementary assessment set will consider which learning outcome(s) have not been met.
Supplementary assessment can take any form (such as a written report, oral presentation, examination or other appropriate assessment) and may test specific learning outcomes tailored to the individual student, or all learning outcomes.
To receive a passing grade of 3S4, you must obtain a mark of 50% or more on the supplementary assessment.
Additional assessment information
Laboratory Practical Sessions
In order to pass this course you must attend 100% of the laboratory practical sessions including the induction session. You must attend these sessions on the dates you have been assigned to.
What should I do if I cannot attend my timetabled laboratory practical?
If you are unable to attend your timetabled practical session because of circumstances beyond your control (e.g., illness) you must email chem1prac.scmb@enquire.uq.edu.au immediately to request a reschedule. It is your responsibility to organise a reschedule, do not wait for an email.ᅠDo not delay rescheduling your practical session as soon as you become aware that you cannot attend your timetabled laboratory practical.ᅠᅠ
Reschedules with documentation
Reschedules will only occur in very exceptional circumstances and valid documentation will be required to be submitted as proof to gain a reschedule:
Reason
Examples of Supporting Documentation
ACCIDENT
Accident, not involving medical injury
Police report;ᅠreport or document from an automotive road service (e.g. RACQ) or from an authorised vehicle mechanic.
ATHLETE
Registered Elite Athlete Sporting Event
Letter from sporting body confirming selection and setting out dates of sporting commitments; itinerary.
DEATH
Death / bereavement
Death notice, funeral notice, and evidence of relationship. Where appropriate, confirmation of relationship is required (e.g. statutory declaration, birth certificate).ᅠPlease note a medical certificate is not appropriate if you are applying because you are bereaved.
FAMILY
Serious illness of a family member or close relative
Statement from medical practitioner confirming medical status of patient, relationship to student, and relevant dates.
MEDICAL
Medical grounds
Medical certificate from a registered medical practitioner, registered pharmacist or registered nurse.
PERSONAL
Significant personal problems
Statement from counsellor / psychiatrist / psychologist detailing impact on patient;ᅠpolice report or a statement from a relevant authority.
TRANSPORT
Major transport or traffic delay
Evidence from websites (e.g. Translink, Queensland Police, news websites) that outlines the nature of the event, including the date and time of the event.
Please note:ᅠPersonal statements will not be accepted as supporting documentation.
If you are aware of any future event that may impact on your laboratory practical attendance during semester please advise us as soon as you become aware of this by emailingᅠchem1prac.scmb@enquire.uq.edu.au
Reschedules without documentation
First reschedule - 30% loss of available marks
Second reschedule of same experiment - 90% loss of available marks
First reschedule plus a second reschedule (different experiments) - 30% loss of available marks for first experiment; 60% loss of available marks for second experiment
No third reschedule possible
Failure to complete 100% experiments will result in failure of hurdle and consequently failure of the course.
Students who miss a laboratory practical session and do not reschedule this session will be advised to withdraw from the course.
Assessment Submission
It is the responsibility of the student to ensure the on time, correct and complete submission of all assessment items.
Please ensure you receive and save the submission confirmation for all submitted items, you may be asked to produce this as evidence of your submission.
Turnitin
By submitting work through Turnitin you are deemed to have accepted the following declaration “I certify that this assignment is my own work and has not been submitted, either previously or concurrently, in whole or in part, to this University or any other educational institution, for marking or assessment”.
All students must ensure they receive their Turnitin receipt on submission of any assessments. A valid Turnitin receipt will be the only evidence accepted if one or more of your submissions are missing. Without evidence, the assessment will receive the standard late penalty, or after seven days, will receive zero. In the case of a Blackboard outage, please contact the Course Coordinator as soon as possible to confirm the outage with ITS.
Assessment/Attendance
Please notify your Course Coordinator as soon as you become aware of any issue that may affect your ability to meet the assessment/attendance requirements of the course. The my.UQ website and the Electronic Course Profile (ECP) for your course also provide information about your course requirements, the rules associated with your courses and services offered by the University.
A note for repeating students in this course
Any student who enrols in a course must not be given exemption or partial credit from their previous attempt(s) for any individual piece of assessment. Instead, the student must successfully complete all of the learning activities and assessment items within the study period of enrolment (PPL Assessment - Procedures Section: Assessment integrity).
If the same assessment item is set from one year to the next, repeating students are allowed to submit the same work they submitted in previous attempts at the course. Where possible SCMB recommends that you use the feedback you received in your last attempt to improve parts of the item where you lost marks. Resubmission of an altered or unaltered assessment item by a repeating student (where the same assessment has been set) will not be considered as self-plagiarism.
Important Note
Turnitin is to be used for assignments/laboratory reports to check for plagiarism. Penalties can be severe for 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 either intentionally or unintentionally. 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.
Learning resources
You'll need the following resources to successfully complete the course. We've indicated below if you need a personal copy of the reading materials or your own item.
Library resources
Find the required and recommended resources for this course on the UQ Library website.
Additional learning resources information
Blackboard
The CHEM1200 Blackboard site can be found at learn.uq.edu.au
Blackboard is a substantial resource and it is strongly recommended that students maintain up-to-date with daily/weekly checks of the Blackboard site. The course coordinator will NOT answer e-mails related to information readily accessible by students on Blackboard.
Practice problem sheets and worked solutions will be available on the course Blackboard page.
Lecture Notes
A hard copy of lecture notes (in two sections covering the course) willᅠbe available for purchase from UQ Print.ᅠ The notes required for the first sections will be available at the commencement of semester 2.ᅠ The lecture notes will also be availableᅠon the CHEM1200 Blackboard page. ᅠ
Learning activities
The learning activities for this course are outlined below. Learn more about the learning outcomes that apply to this course.
Filter activity type by
Please select
| Learning period | Activity type | Topic |
|---|---|---|
Multiple weeks From Week 1 To Week 2 |
Practical |
Lab induction Learning outcomes: L06 |
Multiple weeks From Week 1 To Week 3 |
Lecture |
Lectures (in person) Chemical kinetics Learning outcomes: L01 |
Week 1 (22 Jul - 28 Jul) |
General contact hours |
Active learning contact 1 Course overview and revision of pre-requisite chemistry topics important for progression to CHEM1200. |
Multiple weeks From Week 3 To Week 5 |
Lecture |
Lectures (in person) Organic stereochemistry, structure and reactions of alkenes and aromatic compounds (Organic 1) Learning outcomes: L02 |
Multiple weeks From Week 3 To Week 4 |
Practical |
Experiment 1 Kinetics experiment Learning outcomes: L01, L06 |
Week 3 (05 Aug - 11 Aug) |
General contact hours |
Active learning contact 2 Kinetics. Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L01 |
Multiple weeks From Week 5 To Week 7 |
Lecture |
Lectures (in person) Acids & bases Learning outcomes: L03 |
Multiple weeks From Week 5 To Week 6 |
Practical |
Experiment 2 Organic reaction experiment Learning outcomes: L02, L06 |
Week 5 (19 Aug - 25 Aug) |
General contact hours |
Active learning contact 3 Stereochemistry/Alkenes/Aromatics (Organic 1). Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L02 |
Multiple weeks From Week 7 To Week 8 |
Practical |
Experiment 3 Acid/base experiment Learning outcomes: L03, L06 |
Week 7 (02 Sep - 08 Sep) |
General contact hours |
Active learning contact 4 Acids and Bases. Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L03 |
Multiple weeks From Week 8 To Week 11 |
Lecture |
Lectures (in person) Nucleophilic substitution and elimination reactions, structure determination, structure and reactions of carbonyl compounds (Organic 2) Learning outcomes: L02, L04 |
Multiple weeks From Week 9 To Week 10 |
Practical |
Experiment 4 Organic reaction experiment Learning outcomes: L02, L06 |
Week 9 (16 Sep - 22 Sep) |
General contact hours |
Active learning contact 5 Substitution and Elimination. Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L02 |
Multiple weeks From Week 11 To Week 13 |
Lecture |
Lectures (in person) Transition metals Learning outcomes: L05 |
Multiple weeks From Week 11 To Week 12 |
Practical |
Experiment 5 Transition metals experiment Learning outcomes: L05, L06 |
Week 11 (07 Oct - 13 Oct) |
General contact hours |
Active learning contact 6 NMR & carbonyl compounds. Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L02, L04 |
Week 13 (21 Oct - 27 Oct) |
General contact hours |
Active learning contact 7 Transition metals. Active learning contacts are offered at two different times (Wednesday 10-12 or Thursday 10-12 during odd weeks). A student need only attend ONE of these contacts. Learning outcomes: L05 |
Policies and procedures
University policies and procedures apply to all aspects of student life. As a UQ student, you must comply with University-wide and program-specific requirements, including the:
- Student Code of Conduct Policy
- Student Integrity and Misconduct Policy and Procedure
- Assessment Procedure
- Examinations Procedure
- Reasonable Adjustments - Students Policy and Procedure
Learn more about UQ policies on my.UQ and the Policy and Procedure Library.
You'll also need to be aware of the following policies and procedures while completing this course:
- Laboratory Occupational Health and Safety