This module is not currently running in 2024 to 2025.
Chemistry, as one of the physical sciences, is rooted in careful observation of the natural world and experimentation. This module builds upon the key skills developed in the previous year, teaching new synthetic and analytical techniques, coupled with work using computational methods and analytical software to provide a deeper understanding of lecture material and how it may be applied more generally, and learning how to apply the theories and ideas from lecture modules to socially and industrially relevant problems.
Private Study: 78
Contact Hours: 72
Total: 150
Not available as an elective module.
• Laboratory Report 1 (4 hours) - 8.3%
• Laboratory Report 2 (4 hours) - 8.3%
• Laboratory Report 3 (4 hours) - 8.3%
• Laboratory Report 4 (4 hours) - 8.3%
• Laboratory Report 5 (4 hours) - 8.3%
• Laboratory Report 6 (4 hours) - 8.3%
• Laboratory Report 7 (4 hours) - 8.3%
• Laboratory Report 8 (4 hours) - 8.3%
• Laboratory Report 9 (4 hours) - 8.4%
• Laboratory Report 10 (4 hours) - 8.4%
• Laboratory Report 11 (4 hours) - 8.4%
• Laboratory Report 12 (4 hours) - 8.4%
The University is committed to ensuring that core reading materials are in accessible electronic format in line with the Kent Inclusive Practices. The most up to date reading list for each module can be found on the university's reading list pages.
See the library reading list for this module (Canterbury)
On successfully completing the module students will be able to:
1. Demonstrate knowledge and critical understanding of core and foundation chemical, physical, and biological concepts, terminology, theory, units, conventions, and laboratory practice and methods in relation to the chemical sciences.
2. Demonstrate knowledge and critical understanding of essential facts, concepts, principles and theories relating to chemistry and to apply this knowledge and understanding to the solution of qualitative and quantitative problems.
3. Recognise and critically analyse problems and plan strategies for their solution by the evaluation, interpretation and synthesis of scientific information and data.
4. Understand the importance of observational and instrumental monitoring of physiochemical events and changes, and the systematic and reliable documentation of the above.
5. Safely handle chemical materials, taking into account their physical and chemical properties, including any specific hazards associated with their use and to risk assess such hazards.
6. Carry out documented standard laboratory procedures involved in synthetic and analytical work in relation to organic and inorganic systems. Perform observational and instrumental monitoring of physiochemical events and changes. The systematic and reliable documentation of the above. Operate standard chemical laboratory analytical instruments.
7. Collate, interpret and explain the significance and underlying theory of experimental data, including an assessment of limits of accuracy and understanding the importance of careful design and execution of experiments.
University of Kent makes every effort to ensure that module information is accurate for the relevant academic session and to provide educational services as described. However, courses, services and other matters may be subject to change. Please read our full disclaimer.
