• Each student will be assigned a supervisor who will be responsible for overseeing the research project for the duration of the academic year. Each supervisor will guide the work of a ‘team’ of students who are working on interrelated projects, which have a common theme.
• Students who express interest in a specific project area will be allocated supervisors with corresponding expertise. Other students will be allocated a project supervisor by random ballot.
• Project titles will be agreed by mutual consent after discussion.
• Each student will collect, collate, review and present an academic rationale for the design of their proposed research project. They will also prepare a detailed project plan incorporating a chemical agents risk assessment.
• They will also be provided with supervised laboratory sessions of 4 hours per week. These sessions will be utilised for the practical element of the research project.
• Students must maintain a laboratory notebook in which they should record thoughts, plans, methods, raw data, calculations and other details of practical activities during the course of the project and for both Semesters.
• Students will meet with their project supervisor for approximately one hour per week to discuss the planning, experimental design and progress of the work. Supervisors will employ a combination of individual student meetings and ‘team’ meetings. During weekly meetings, the project supervisor may add remarks or suggestions to the laboratory notebook.
• Refresher library tutorials will be provided to improve information retrieval skills and ensure compliance with the Institute Academic Integrity Policy.

• Students will be provided with 8 hours per week of supervised laboratory time for the execution of their project.
• Students will meet with their project supervisor for approximately one hour per week to discuss the progress of the work, data analysis and preparation of the thesis and oral presentation. .
• Students must submit a typed, bound, project thesis of 8,000 (+/- 2,000) words using an approved format and perform and defend a 10-minute oral presentation of their work.

• The synthesis of a some simple derivatives of a suitable compound and a study on their lipid solubility and membrane penetration • The development of an immunoassay for a suitable drug • The comparison of a range of methods (eg uv/visible spectroscopy, GC, HPLC) for the analysis of a set of related drugs • A study of the biological bacteriocidal specificity of a range of related antibiotics • The effect of a range of smooth muscle or other drugs on earthworm contraction • Studies on the effect of food additives (eg colourants) on the heart rate of Daphnia