BSc Chemistry
Academic Year 2018/19
A programme specification is required for any programme on which a student may be registered. All programmes of the University are subject to the University's Quality Assurance processes. All degrees are awarded by Queen's University Belfast.
Programme Title |
BSc Chemistry |
Final Award |
Bachelor of Science |
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Programme Code |
CHM-BSC-S |
UCAS Code |
F100 |
HECoS Code |
100417 |
ATAS Clearance Required |
No |
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Mode of Study |
Full Time |
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Type of Programme |
Single Honours |
Length of Programme |
3 Academic Year(s) |
Total Credits for Programme |
360 |
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Exit Awards available |
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INSTITUTE INFORMATION
Teaching Institution |
Queen's University Belfast |
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School/Department |
Chemistry & Chemical Engineering |
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Framework for Higher Education Qualification Level |
Level 6 |
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QAA Benchmark Group |
Chemistry |
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Accreditations (PSRB) |
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Royal Society of Chemistry |
Date of most recent Accreditation Visit 14-04-16 |
REGULATION INFORMATION
Does the Programme have any approved exemptions from the University General Regulations
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Programme Specific Regulations Students with an average mark of >55% at Stage 2 and a weighted average of >55% across stages 1 and 2 will be offered the opportunity to transfer to the MSci in Chemistry Programme. |
Students with protected characteristics
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Are students subject to Fitness to Practise Regulations (Please see General Regulations) No |
EDUCATIONAL AIMS OF PROGRAMME
Understand the core principles of chemistry
Progress directly to graduate level employment in the chemical industry and non-chemistry related industries.
LEARNING OUTCOMES
Learning Outcomes: Cognitive SkillsOn the completion of this course successful students will be able to: |
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Solve previously 'unseen' scientific problems using a range of analytical and deductive techniques |
Teaching/Learning Methods and Strategies Lectures and tutorials; class tests and problem solving sessions; structured group and independent laboratory classes; guided independent study. Unseen problems are introduced with tutorial and post-laboratory questions in all topics at Stages 1 and 2 and increase in complexity into level 3 leading to the design of experiments and data acquisition to solve research questions Methods of Assessment Written examinations; project or extended experimental work dissertations; oral and poster presentations; experimental reports; |
Develop and use reflective practices to provide practical solutions to problems by experimentation |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises; guided independent study. Reflective practices are developed through feedback from experimental reports, tutorial work and formative/summative class tests. By Stage 3, students are routinely applying reflective experimental design principles to their research project or extended practical programmes Methods of Assessment Written examinations; group and individual dissertations; oral and poster presentations; experimental reports |
Critically review and reflect upon their work |
Teaching/Learning Methods and Strategies Structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises. The same principles of developing these critical analysis and review techniques as the previous Outcome apply here Methods of Assessment Written examinations; group and individual dissertations; oral and poster presentations; experimental reports |
Make value judgments on information in the public domain |
Teaching/Learning Methods and Strategies Essays; literature searching and research project or extended experimental work dissertation. Retrieval of subject-specific material from primary literature and public domain sources are developed through essays and particularly through the group problem solving exercises which rely on critical analysis of published material Methods of Assessment Group and individual dissertations; oral and poster presentations. |
Learning Outcomes: Transferable SkillsOn the completion of this course successful students will be able to: |
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Solve previously 'unseen' scientific problems using a range of analytical and deductive techniques |
Teaching/Learning Methods and Strategies Lectures and tutorials; class tests and problem solving sessions; structured group and independent laboratory classes; guided independent study. Unseen problems are introduced with tutorial and post-laboratory questions in all topics at Stages 1 and 2 and increase in complexity into level 3 leading to the design of experiments and data acquisition to solve research questions Methods of Assessment Written examinations; project or extended experimental work dissertations; oral and poster presentations; experimental reports; |
Develop and use reflective practices to provide practical solutions to problems by experimentation |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises; guided independent study. Reflective practices are developed through feedback from experimental reports, tutorial work and formative/summative class tests. By Stage 3, students are routinely applying reflective experimental design principles to their research project or extended practical programmes Methods of Assessment Written examinations; group and individual dissertations; oral and poster presentations; experimental reports |
Critically review and reflect upon their work |
Teaching/Learning Methods and Strategies Structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises. The same principles of developing these critical analysis and review techniques as the previous Outcome apply here Methods of Assessment Written examinations; group and individual dissertations; oral and poster presentations; experimental reports |
Make value judgments on information in the public domain |
Teaching/Learning Methods and Strategies Essays; literature searching and research project or extended experimental work dissertation. Retrieval of subject-specific material from primary literature and public domain sources are developed through essays and particularly through the group problem solving exercises which rely on critical analysis of published material Methods of Assessment Group and individual dissertations; oral and poster presentations. |
Solve previously 'unseen' scientific problems using a range of analytical and deductive techniques |
Teaching/Learning Methods and Strategies Lectures and tutorials; class tests and problem solving sessions; structured group and independent laboratory classes; guided independent study. Unseen problems are introduced with tutorial and post-laboratory questions in all topics at Stages 1 and 2 and increase in complexity into level 3 leading to the design of experiments and data acquisition to solve research questions Methods of Assessment Written examinations; project or extended experimental work dissertations; oral and poster presentations; experimental reports; |
Written examinations; project or extended experimental work dissertations; oral and poster presentations; experimental reports; |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises; guided independent study. Reflective practices are developed through feedback from experimental reports, tutorial work and formative/summative class tests. By Stage 3, students are routinely applying reflective experimental design principles to their research project or extended practical programmes Methods of Assessment Written examinations; group and individual dissertations; oral and poster presentations; experimental reports |
Learning Outcomes: Knowledge & UnderstandingOn the completion of this course successful students will be able to: |
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Read, understand and assimilate new information and subsume acquired knowledge into a concise manner and within various settings |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; research project or extended experimental work; essays and dissertations. The ability to extract, process, understand and critically analyse published material is a core key skill in this degree programme and the techniques are embedded into the course from Stage 1 to 3 using the methods listed above Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; oral and poster presentations; experimental reports; |
Apply developed generic and subject specific IT skills |
Teaching/Learning Methods and Strategies Lectures and tutorial; IT and computer skills workshops; experimental reports; research project or extended experimental work; essays and dissertations; guided independent study. Basic IT skills for the production of professional reports using subject specific software, such as chemical structure drawing and data analysis, are introduced through workshops and computer-based classes and then developed through experimental reports and essays and dissertations Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; computer-based workshop or online assessment; experimental reports; |
Be proficient in database and literature searching techniques |
Teaching/Learning Methods and Strategies Essays; literature searching and research project or extended experimental work dissertation; group problem solving exercises; guided independent study. Awareness of the body of published scientific work and the tools to interrogate and access that information begins in Stage 1 and is developed to the point where students use the available search techniques routinely for their research project or extended practical work in Stage 3 Methods of Assessment Project or extended experimental work dissertations; group and individual dissertations; oral and poster presentations |
Learning Outcomes: Subject SpecificOn the completion of this course successful students will be able to: |
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Demonstrate a conceptual understanding of the fundamental aspects of organic, inorganic and physical chemistry |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; research project or extended experimental work; essays and dissertations; guided independent study; These subject-specific skills are developed from fundamental concepts in Stages 1 and 2 to the application of the concepts in industrially and commercially relevant contexts in Stage 3 where a degree of specialisation through the specific pathway and the Options module is available Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; experimental reports |
Understand the characteristic chemistry and properties of the elements and group relationships and trends within the periodic table |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; essays and dissertations; guided independent study. See previous Learning Outcome for details of strategy Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; experimental reports |
Demonstrate a knowledge of chemical bonding, shape and structure |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; essays and dissertations; independent guided study. See previous Learning Outcome for details of strategy Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; experimental reports |
Understand the chemistry of functional groups and major synthetic pathways in organic chemistry. |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; essays and dissertations; guided independent study. See previous Learning Outcome for details of strategy Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; experimental reports |
Understand the principles of thermodynamics and kinetics, including catalysis and the mechanistic interpretation of chemical reactions |
Teaching/Learning Methods and Strategies Lectures and tutorials; structured group and independent laboratory classes; essays and dissertations; guided independent study. See previous Learning Outcome for details of strategy Methods of Assessment Written examinations; class tests; project or extended experimental work dissertations; experimental reports |
Demonstrate safe and proficient practical laboratory chemistry skills |
Teaching/Learning Methods and Strategies Structured group and independent laboratory classes; research project. Chemistry is essentially an experimental, laboratory-based subject and experimental work forms at least 25% of the degree in terms of teaching and assessment. Developing the skills to handle potentially dangerous materials and processes is central to all laboratory-based activities Methods of Assessment Project or extended experimental work dissertations; group and individual dissertations; oral and poster presentations; experimental reports |
Be proficient in a range of analytical instrumentation |
Teaching/Learning Methods and Strategies Structured group and independent laboratory classes; research project or extended experimental work; group problem solving exercises. Methods of Assessment Project or extended experimental work dissertations; group and individual dissertations; oral and poster presentations; experimental reports |
Implement sustainable industrial practices using Green Chemistry principles |
Teaching/Learning Methods and Strategies Lectures and tutorials; group problem solving exercises; guided independent study. Sustainability and Green Chemistry are delivered through the group process design exercise which uses experiential problem solving and scientific literature critical analysis as a more effective method to teach these concepts than the traditional lecture model of delivery Methods of Assessment Project or extended experimental work dissertations; group and individual dissertations; |
MODULE INFORMATION
Stages and Modules
Module Title |
Module Code |
Level/ stage |
Credits |
Availability | Duration |
Pre-requisite |
Assessment | |||||
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S1 | S2 | Core | Option | Coursework % | Practical % | Examination % | ||||||
Introductory Mathematics for Chemists and Engineers | CHE1006 | 1 | 10 | YES | 12 weeks | N | YES | 100% | 0% | 0% | ||
Skills for Physical Chemistry | CHM1015 | 1 | 10 | YES | 12 weeks | N | YES | 100% | 0% | 0% | ||
Organic Chemistry Level 1 | CHM1101 | 1 | 30 | YES | YES | 24 weeks | N | YES | 15% | 15% | 70% | |
Inorganic Chemistry Level 1 | CHM1102 | 1 | 30 | YES | YES | 24 weeks | N | YES | 15% | 35% | 50% | |
Introduction to Chemical Products and Processes | CHE1101 | 1 | 20 | YES | 12 weeks | N | YES | 100% | 0% | 0% | ||
Physical Theory | CCE1102 | 1 | 30 | YES | YES | 24 weeks | N | YES | 15% | 25% | 60% | |
Structural Chemistry | CHM2002 | 2 | 20 | YES | 24 weeks | N | YES | 100% | 0% | 0% | ||
Organic Chemistry 2 | CHM2003 | 2 | 20 | YES | 24 weeks | N | YES | 10% | 30% | 60% | ||
Inorganic Chemistry 2 | CHM2004 | 2 | 20 | YES | 24 weeks | N | YES | 5% | 25% | 70% | ||
Industrial and Green Chemistry | CHM2006 | 2 | 20 | YES | 24 weeks | N | YES | 100% | 0% | 0% | ||
Quantum Theory, Spectroscopy and Bonding | CHM2005 | 2 | 20 | YES | 24 weeks | N | YES | 25% | 15% | 60% | ||
Physical Chemistry 2 | CHM2001 | 2 | 20 | YES | 24 weeks | N | YES | 20% | 20% | 60% | ||
Inorganic Chemistry 3 | CHM3001 | 3 | 20 | YES | YES | 24 weeks | N | YES | 85% | 15% | 0% | |
Physical Chemistry 3 | CHM3003 | 3 | 20 | YES | 24 weeks | N | YES | 10% | 0% | 90% | ||
Advanced Chemistry Options | CHM3005 | 3 | 20 | YES | 24 weeks | N | YES | 0% | 0% | 100% | ||
Organic Chemistry 3: Structure and Reactivity | CHM3002 | 3 | 20 | YES | YES | 24 weeks | N | YES | 0% | 0% | 100% | |
Chemistry Research Project | CHM3008 | 3 | 40 | YES | YES | 24 weeks | N | YES | 80% | 20% | 0% | |
Advanced Practical Work in Chemistry | CHM3015 | 3 | 40 | YES | YES | 24 weeks | N | YES | 100% | 0% | 0% |
Notes
CHE1006 for students with A Level Maths or CHM1015 for those without A Level Maths