BSc in Biology and Mathematics within the Natural Sciences programme (CFG0): 2019-2020
The current course structure is shown in the table below that consists of modules which must be studied in the appropriate year - click on the module code for the current module content. After Year 1, students focus solely on studying Biology and Mathematics. If students don't wish to take a particular module or include a third subject then it may be possible take up the option of the more flexible "BSc in Natural Sciences degree. The subjects in which modules have been taken successfully in the final two years are as follows: Biology and Mathematics". As the rules below permit, students may take up to 80 credits in one subject and no less than 40 credits in the other subject and always take precisely 120 credits in one year.
|Biology||40 credits: Organisms And Environment (BIOL1161) and Genetics (BIOL1171)|
|Mathematics||60 credits: Calculus I (MATH1061), Linear Algebra I (MATH1071), Probability I (MATH1597), Statistics I (MATH1617).|
|Biology||60 credits: Evolution (BIOL2451), Ecology (BIOL2461) and Molecular Biology (BIOL2441)|
|Mathematics||60 credits: From the Level 2 Mathematics list.|
|Biology||40 credits: Ecology In The Anthropocene (BIOL3541) and Conservation Biology (BIOL3551)|
|Mathematics||40 credits: Modules taken from the Level 3 Mathematics list. If 60 credits or more are taken, 20 credits can be at Level 2 Mathematics.|
|Students must take no less than 20 credits and no more than 60 Capstone Modules from the following list:|
|Capstone modules||Biology into Schools (BIOL3431); requires a concession based around students taking Business modulesLiterature Review (BIOL3451); Contemporary Issues in the Biosciences (BIOL3641); Mathematics Teaching III (MATH3121); Project III (MATH3382);|
Further details about the modules in the Mathematics list.
Below is an example of modules that are timetabled to satisfy these rules except in Year 3 where the set may not include a capstone module. Click on the single digit numbered link on the left to see a sample timetable and the module code to see details about the module such as content, contact hours, teaching methods and assessment methods.
|1||Introduction To Physiology (BIOL1151)||Organisms And Environment (BIOL1161)||Genetics (BIOL1171)||Calculus I (MATH1061)||Probability I (MATH1597)||Linear Algebra I (MATH1071)||Statistics I (MATH1617)|
|2||Molecular Biology (BIOL2441)||Evolution (BIOL2451)||Ecology (BIOL2461)||Statistical Concepts II (MATH2041)||Complex Analysis II (MATH2011)||Analysis In Many Variables II (MATH2031)|
|3||Ecology In The Anthropocene (BIOL3541)||Conservation Biology (BIOL3551)||Literature Review (BIOL3451)||Mathematical Biology (MATH3171)||Decision Theory III (MATH3071)||Dynamical Systems III (MATH3091)|
- You can vary the balance between the two subjects in all years assuming the rules below and timetable will allow it.
- In Year 3 students are required to take no less than 20 credits and no more than 60 Capstone Modules from two subjects. The minimum number of credits is reviewed on an annual basis as we are working towards students being required to take 40 credits, when this change happens students will be informed explicitly.
- Not all combinations of the modules which make up the degree rules are guaranteed to timetable, but one set will.
- If no student is following the Joint-Honours degree in a given year, then we do not ask for modules to be timetabled for that cohort in the following year.
- The timetable changes each year.
- Future changes in the Joint-Honours rules are either flagged up in the programme regulations in the Faculty Handbook or in the Biology/Mathematics advice.
- Students are welcome to suggest to the Director better guaranteed combinations, but due to the quality assurance process and timetabling the lead in time is one year.
For more information about the Natural Sciences degree programme, please contact:
Dr. James Blowey
Deputy Head of Faculty
Faculty of Science Office
Level 3 Chemistry Building
Email: Natural Sciences Director
The Natural Sciences web pages are maintained by James Blowey