Build your knowledge and skills for a solid foundation to study our Forensic Science degrees at Kent. Whether you’re looking for a change of career, or may not have the scientific background or entry requirements, our Foundation Year offers the opportunity to fill in any knowledge gaps and build your confidence.
At Kent, you study all aspects of forensic science, developing scientific and analytical skills. We create ‘crime scenes’ - including using our brand new crime scene house - for you to examine and conduct ‘major incident’ exercises, where you react in real time to an unfolding event. We also demonstrate how your forensic skills can be used within archaeology and in the food and pharmaceutical industries.
You get to grips with the science behind crime-scene scenarios and evidence gathering as well as gain insight into legal processes and training in the delivery of expert witness testimony. This range of skills and knowledge, along with our expert in-house careers advice, help give you the best possible start to your future.
As a foundation year student, you are a full member of the University and can take part in all student activities.
This programme is for science students who do not meet the requirements for direct entry to Stage 1 of our degree programmes. It is also an excellent conversion course for applicants who have shown academic ability in non-science subjects. We also consider applicants without traditional academic qualifications who have relevant professional experience.
In your foundation year, you study chemistry, mathematics and take part in practical classes. On successful completion of your foundation year, you will have reached a standard above A level and so be fully equipped to tackle the BSc degree course.
In your first year of the BSc, you get to grips with the broad base of knowledge on which forensic science is built, including biochemistry, drug chemistry, and ballistics. You also develop your investigative and laboratory skills.
In your second and final years, you expand your knowledge to cover analytical chemistry, forensic archaeology, digital forensics, fires and explosions, and firearms. You also study criminal law (taught by Kent’s highly ranked Law School) and are trained in forensic expert witness skills. In certain modules, you are taught by industry specialists.
Forensic Science student Sophia Warner explains what it's like studying at the University of Kent.
Our degrees are not only designed to give the best possible start to your career, but they are also flexible so that you can do the best degree for you. You can opt to complete a Professional Placement to put into practice the skills you learnt and make valuable industry contacts or study abroad for a year. It is also possible to take a four-year MSci where you'll work as part of a research group doing cutting-edge work and gain an edge in the job market.
If you have the grades and scientific background needed, you can look at direct entry on to our three year BSc in Forensic Science.
We recently invested £10 million in our laboratories and improved our general study spaces. Facilities to support forensic science include:
As well as a fascinating course with great opportunities to further your career potential, we work hard to give you the best possible wider student experience.
You will be part of an international scientific community of physics and astronomy, chemistry and forensic science, bioscience and medical and sport science students, as well as being able to join a range of student-led societies and groups.
As well as inspiring you to realise your potential, we are here to support you with excellent in-house student support to assist with pastoral issues and careers experts with specialist knowledge as well as Academic Advisors and Peer Mentors to help with your studies.
You are encouraged to participate in conferences and professional events to build up your knowledge of the science community and enhance your professional development.
All students are offered free membership of The Chartered Society of Forensic Sciences and the department also has links with:
Please also see our general entry requirements.
For those with a relevant science qualification our standard offer is CD with one of these to be Chemistry or Biology. For those without a relevant science qualification, our standard offer is BB.
The University will not necessarily make conditional offers to all Access candidates but will continue to assess them on an individual basis.
If we make you an offer, you will need to obtain/pass the overall Access to Higher Education Diploma and may also be required to obtain a proportion of the total level 3 credits and/or credits in particular subjects at merit grade or above.
The University will consider applicants holding BTEC National Diploma and Extended National Diploma Qualifications (QCF; NQF;OCR) at 120 credits or more, on a case by case basis. Please contact us via the enquiries tab for further advice on your individual circumstances.
34 points overall or 11 at HL including HL Chemistry or Biology at 4 or SL Chemistry or Biology at 5.
N/A
Please contact the School for more information at study-forensics@kent.ac.uk.
International students should visit our International Student website for further specific information. International fee-paying students who require a Student visa cannot study part-time due to visa restrictions.
Please see our English language entry requirements web page.
If you need to improve your English language standard as a condition of your offer, you can attend one of our pre-sessional courses in English for Academic Purposes before starting your degree programme. You attend these courses before starting your degree programme.
Duration: 4 years full-time
The course structure below gives a flavour of the modules and provides details of the content of this programme. This listing is based on the current curriculum and may change year to year in response to new curriculum developments and innovation.
At all stages in this programme, the modules listed are compulsory.
After successfully completing the foundation year you can transfer on to any three or four year Forensic Science courses. Please refer to the BSc Forensic Science, BSc Forensic Science with a Year in Industry or Forensic Science MSci course for more information about specific modules for stages 1-4.
This module covers a range of arithmetic and algebraic aspects of maths, including: Lowest Common Multiples/Highest Common Factors, Significant Figures, Scientific/Engineering Notation, Fractions, Percentages, Indices, Functions, Logarithmic and Exponential Equations, Algebraic Long Division, Factorisation, Quadratic Equations, Linear and Simultaneous Equations, Partial Fractions and Binomial Theorem.
Graphical methods are powerful, visual tools to illustrate relationships in theories, and in experimental quantities, pertaining to physical phenomena. They involve knowledge of, and visual representation of mathematical functions frequently encountered in the physical sciences. The topics covered are expected to include:
• Graphs of functions including straight lines, quadratics, 1/x and 1/x2.
• Parametric equations for curves, including use in modelling phenomena in physical sciences.
• Coordinate geometry of lines and circles, including calculations with angles in radians.
• Trigonometric functions (sine, cosine, tangent), and reciprocal and inverse trigonometric functions.
• Formulae involving small angles, sums of angles, and products of trigonometric functions.
• Solving trigonometric equations in the context of modelling phenomena in physical sciences.
• Vectors in one, two and three dimensions, and notations for representing them.
• Algebraic operations of vector addition and multiplication by scalars.
• Use of vectors in modelling phenomena in physical sciences.
The mole; chemical equations; titrations; atoms and molecules; energy levels; acids and bases; orbitals; bonds; molecular shapes; spectra; bond energies, hydrogen bonding, analytical methods - IR, UV-Vis, NMR).
This module will cover lattice energy; polymorphism; chemical equilibrium; the Periodic Table; solubilities; transition metals; isomerism; organic chemicals; shapes of organic molecules; organic analysis; optical activity; basic reactions of organic compounds; organic problem-solving; reaction kinetics.
This module will cover states of matter; radioactivity; real and ideal gases; water. Main group inorganic chemistry; phase diagrams, ideal solutions; miscibility, electrochemistry, forensic science techniques.
This module presents a unified understanding of the structure of matter, linking physical properties to bonding and energy, and providing the tools necessary to begin to describe and analyse chemical problems. Key concepts such as mass balance and bonding (ionic, covalent, metallic, and intermolecular) are linked to analytical methods to show how these fundamental ideas can be measured and used.
Organic chemistry underpins not only much of the chemistry of living things but also modern materials, dyes, medicines, and more. This module discusses the structure of organic molecules in detail, showing the shape of molecules dictates their properties, and how Nuclear Magnetic Resonance spectroscopy (NMR) can exploit this to determine the structures and thus properties of unknown molecules. Fundamental modes of reactivity of organic molecules are discussed, showing how simple mechanisms can be used to build complex and useful compounds.
Chemistry, as one of the physical sciences, is rooted in careful observation of the natural world and experimentation. This module teaches the key skills required to work in a chemical laboratory, analysing unknown systems and synthesising new ones, and learning how to apply the theories and ideas from lecture modules to socially and industrially relevant problems.
This module introduces students to the mathematical, physical, social and legal concepts that underpin academic study in the field of forensic ballistics.
Students will experience a broad overview of evidence categories and crime types commonly encountered within the criminal justice system. Students will also be taken through a range of techniques associated with the delivery of forensic science to support this system.
This module will provide forensic science students with some of the core understanding in inorganic and physical chemistry. These aspects will underpin students’ understanding of Analytical Techniques and the Chemistry related to various forensic processes, leading to an enhanced understanding of Forensic Chemistry.
This module introduces a range of forensically-relevant practical techniques from the initial processing of incident or crime scenes through to carrying out relevant laboratory analyses of evidence collected.
An introduction to the core Mathematical skills required within the Chemical and Forensic Sciences. These core skills will be complemented with a variety of problem-solving applications in Chemistry and Forensic Science.
Analytical chemistry underpins all other aspects of the discipline, and covers not only how to find out what a thing is but how to design experiments and confirm results to quantify just how confident you can be that your answer is useful. This module takes a pragmatic, applications driven approach to sample preparation, analysis, and data validation.
This course will introduce students to the key ideas and fundamental molecular components of biochemistry. The course will cover simple biomolecules and non-covalent interactions, building up to biological oligomers. This will lead to introductory pharmacology and pharmacokinetics, illustrated with medicinal chemistry case studies.
This module will develop the students’ appreciation of a range of physical techniques applied, to the collection of bulk and trace evidence materials in forensic science. Students will look more deeply into aspects of physical evidence and will deal with the practical issues of item examination, legal process and general procedure associated with the collection and submission of a range of forensically-relevant materials.
This module introduces students to a range of scene investigation and evidence processing techniques through a combination of laboratory-based training exercises and simulated scene investigation scenarios.
This module offers students experience in a wide range of important forensic investigative and analytical skills relating to other taught and practical modules in the forensic programme. Students will also have the opportunity to build computational skills through the use facial composite software.
This module covers a range of techniques that can be applied to the discovery, aging and identification of buried and ancient remains or artefacts.
This module covers a broad range of established and emerging, computer based, forensic methods. It is organised into three units: Facial Identification Techniques, focusing on facial composite construction; Image Processing, Photo Forensics and Digital Forensics.
This module will give students a background in forensic ballistics, including the investigation of shooting scenes, firearms law and wound ballistics.
Analytical chemistry underpins all other aspects of the discipline. This module discusses modern methods in data analysis and processing, Cheminformatics and “Big Data”, and describes advanced analytical methods used for analysing complex systems.
This module covers a range of core chemical science that relates to fire and explosive events. The applied investigation of such events is also discussed to give students a wider appreciation of previous case studies and the complexities of post-fire and post-blast investigations.
This module discusses the legal processes associated with the submission of evidence in the courts of law alongside providing training in the delivery of expert witness testimony. Students will undergo a mock courtroom exercise in which they will deliver expert testimony in a courtroom environment.
This module intends to illustrate the contemporary topics, underpinning professional practice those students wishing to enter the forensic science profession. The indicative content draws upon much of the guidance, published by the Forensic Science Regulator, UKAS, ENFSI, CSOFS as well as academic and professional commentary. The module covers several broad topics – namely, evaluative reporting, Case Assessment and Interpretation (CAI), quality standards, ethics in forensic science and bias.
This module will provide Forensic Scientists with an understanding of the chemistry behind the analysis of trace evidence. Students will be introduced to how complex instrumentation is used in these analyses and provide the background concepts needed to understand and interpret data.
This module comprises a range of contemporary topics covering methods of analysis and the interpretational issues associated with forensic DNA profiling. The materials take students through the evolution of forensic DNA; RFLP, Quad and the progression of DNA multiplexes to the present day and the practical issues of sample collection, processing and storage, DNA theory and practical DNA processing. Students will appreciate the difficulties associated with mixed samples and the statistical interpretation associated with both single source and mixture interpretation. The module draws upon the latest materials published by the Forensic Science Regulator and the latest quality and legal standards associated with DNA profiling. The module is contextualised throughout using a range of contemporary case studies.
This module will provide students with the skills necessary to propose, develop, perform and report on a project. The emphasis of this module will focus on not only academic research projects but also on future employability skills related to working in industry.
The 2021/22 annual tuition fees for this programme are:
For details of when and how to pay fees and charges, please see our Student Finance Guide.
For students continuing on this programme, fees will increase year on year by no more than RPI + 3% in each academic year of study except where regulated.*
The University will assess your fee status as part of the application process. If you are uncertain about your fee status you may wish to seek advice from UKCISA before applying.
Find out more about accommodation and living costs, plus general additional costs that you may pay when studying at Kent.
We have a range of subject-specific awards and scholarships for academic, sporting and musical achievement.
Search scholarshipsKent offers generous financial support schemes to assist eligible undergraduate students during their studies. See our funding page for more details.
You may be eligible for government finance to help pay for the costs of studying. See the Government's student finance website.
Scholarships are available for excellence in academic performance, sport and music and are awarded on merit. For further information on the range of awards available and to make an application see our scholarships website.
At Kent we recognise, encourage and reward excellence. We have created the Kent Scholarship for Academic Excellence.
The scholarship will be awarded to any applicant who achieves a minimum of A*AA over three A levels, or the equivalent qualifications (including BTEC and IB) as specified on our scholarships pages.
There are approximately eight one-hour lectures each week, laboratory classes, project work and problem-solving seminars.
Assessment is by a combination of written examinations, continuous assessment and other assignments. You must pass the Stage 1 examinations in order to go on to Stage 2. Coursework assessments include incident analysis, evidence preservation, presentation skills and expert witness testimony.
Please note that you must pass all modules of the foundation year in order to progress onto stage 1.
For a student studying full time, each academic year of the programme will comprise 1200 learning hours which include both direct contact hours and private study hours. The precise breakdown of hours will be subject dependent and will vary according to modules. Please refer to the individual module details under Course Structure.
Methods of assessment will vary according to subject specialism and individual modules. Please refer to the individual module details under Course Structure.
The programme aims to:
You gain knowledge and understanding of:
You gain intellectual skills in how to:
You gain the following subject-specific skills:
You gain the following transferable skills:
Forensic Science at Kent was ranked 5th in The Complete University Guide 2021.
Over 90% of final-year Forensic Science students were satisfied with the quality of their course in The Guardian University Guide 2021.
You graduate with an excellent grounding in scientific knowledge and extensive laboratory experience. In addition, you also develop the key transferable skills sought by employers, such as:
This means that our graduates are well equipped for careers across a range of fields and have gone on to work for companies such as Pfizer, LGC, the Police, and the Forensic Explosives Laboratory which is part of the Ministry of Defence and provides scientific support to the Police and Crown Prosecution Service.
You can read their stories, and find out about the range of support and extra opportunities available to further your career potential.
This course page is for the 2021/22 academic year. Please visit the current online prospectus for a list of undergraduate courses we offer.
T: +44 (0)1227 823254
E: internationalstudent@kent.ac.uk
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