Chemistry with Forensic Science
with a Year Abroad
Choose chemistry to change the world and your future.
Choose chemistry to change the world and your future.
Curious about the structure of chemicals and the reactions they have with one another? Interested about how chemistry is applied across a range of forensic science disciplines? Enter the fascinating world of Chemistry with Forensic Science at Kent to gain the knowledge and practical skills in aid of tackling the challenges of the 21st century - from drug design and analysis to understanding the science that underpins and supports crime scene investigation.
Our distinctive course provides a carefully curated set of ‘chemistry in context’ modules where you will apply your skills and knowledge to interesting case studies and in the solution of real-world chemical and forensic science problems.
You'll spend your year abroad studying at one of our partner institutions. Studying and living abroad helps you grow in confidence and enhances your employability. You'll also make friends in the country you're studying in and meet other adventurous students from around the world.
Your Chemistry degree opens the door to lots of exciting careers; taking a Year in Industry helps you discover some of those options.
Study a wide range of modules from core chemistry concepts to how it can help build a better world with an introduction to chemistry and the environment.
Our lecturers are innovative teachers and active researchers: Professor Jennifer Hiscock is in a team that created a material that can stop supersonic impacts.
Spend a year studying abroad at one of our partner universities. We currently have links with institutions in the US, Canada, Hong Kong, Malaysia and Australia.
You'll use industry-standard equipment from the start of your degree.
Our typical offer levels are listed below and include indicative contextual offers. If you hold alternative qualifications just get in touch and we'll be glad to discuss these with you.
BBC including Chemistry, Biology or Physics at grade B
The University will consider applicants holding/studying BTEC Extended National Diploma Qualifications (QCF; NQF;OCR) in Applied Science at DMM.
112 Tariff points, Typically H5, H5, H6 at HL including HL Chemistry, Biology or Physics at 5
Mathematics grade C or 4
N/A
The University will consider applicants holding T level qualifications in subjects closely aligned to the course.
The University welcomes applications from Access to Higher Education Diploma candidates. for consideration. A typical offer may require you to obtain a proportion of Level 3 credits in relevant subjects at merit grade or above. A typical offer for stage 1 would be: Access to HE Diploma 45 at level 3 Credits with 18 credits at Distinction and 24 credits at Merit and contain at least 12 Level 3 credits in Chemistry. A science programme including Chemistry Level 3 credits would be required.
The following modules are what students typically study, but this may change year to year in response to new developments and innovations.
You'll work on the foundations of chemistry, before further developing your knowledge of organic, inorganic and physical chemistry alongside important practical laboratory skills.
Embark on a fascinating journey into the heart of matter with our Fundamentals of Chemistry module, designed to ignite your curiosity and lay the foundations for your understanding of the chemical world. Delve into the fundamental principles that govern the behaviour of atoms and molecules, explore the mysteries of chemical reactions, and investigate the endless possibilities that chemistry offers in shaping our world. From understanding atomic structure to unraveling the complexities of bonding and reactivity, this course serves as a vital gateway, equipping you with indispensable knowledge essential for both forensic analysis and broader chemistry applications.
How do chemical and technological processes shape and influence the natural world? What can we as chemists do to tackle environmental challenges? As a burgeoning chemist, you will explore how chemical processes shape and influence the world around us. By fostering an understanding of environmental chemistry alongside essential skills in scientific communication, data analysis, and ethical conduct, this module equips you with the tools you need to tackle pressing environmental challenges and contribute to a sustainable future.
Why do we make molecules? Why does nature make molecules? What do these molecules do? What makes carbon so vital to life? What makes one molecule a medicine and another a poison? You'll start your journey in organic chemistry by answering some of these questions.
We'll introduce you to the basics of fundamental organic chemistry, looking at the structures of carbon-based molecules and how they can be put together in millions of different ways. We'll see how they bond with other elements to give complex compounds and how they can be made, synthetically and biologically. This module equips you with all you need to know about organic chemistry leading into your later studies in Chemistry or Forensic Science, laying the foundations for your degree and your career.
How do the elements vary across the periodic table? How can we utilise these variation to optimise the reactivity of compounds and their physical properties as is required by modern society? This module gives you an understanding of how the variation in bonding across the periodic table leads to predictable and useful trends in structure and properties.
The key properties of the transition metals are explored; this will enable you to understand how their fascinating and versatile properties arise, laying the groundwork for their application in diverse and distinctive settings. You'll develop your ability to understand and apply the key underpinning principles of inorganic chemistry supported by associated mathematical methods. This is key to the mastery of chemical structure, reactivity and functional properties required by chemists.
What drives a chemical reaction? How can we control chemical reactions? And why is it important to control chemical reactions? We discuss the key ideas of thermodynamics and kinetics in a chemical context. It shows how the universe may be understood in terms of the flow of energy, allowing us to understand what transformations are possible and how fast they will occur. These essential physical principles are then applied to real world phenomena, showing that even the most fundamental theories have direct and important applications in the modern world. This understanding is key to you not only become a successful chemist, but an ethical and responsible one, which is crucial when looking for a professional role following graduation.
Practising chemists are respected for their ability to understand complex theory, and test it experimentally. This module guides you through the introductory stages of your journey to competency in applied experimental chemistry. Comprising a rigorous set of practical experiences, you'll gain a robust understanding of core practical chemistry skills, from working hands-on skillfully in the wet laboratory, to venturing into the modern world of coding and computation. Along the way you'll explore organic and inorganic synthesis, physical and analytical chemistry, and the use of computational techniques in experimental chemistry, while developing key skills in data manipulation, data presentation and scientific report writing. This sets up up for an exciting and successful career as a chemist, or in a wider range of fields, putting you in the driving seat of your career.
In addition to core chemistry modules, you will immerse yourself in modules that provide specialist forensic science knowledge and application.
Why is analytical chemistry important within the chemical and forensic industries? What approaches should we take when considering the chemical analysis of an unknown sample? Analytical chemistry is essential throughout the chemical and forensic world - covering not only how we design experiments to understand the composition of unknown samples, but also how we confirm and quantify results and assign a level of confidence to our findings. This module takes a pragmatic, application-driven approach to sample preparation, analysis, and data validation, providing key foundations for the modern analytical chemist - and the key skills needed for a number of careers in chemical and forensic industries.
Do you want to know more about the structure of DNA and how its structure has evolved to provide the building blocks of life? Have you wondered why different drugs behave in different ways inside our bodies? How do we create new treatments and therapies to tackle disease? This module introduces you to the key ideas and fundamental molecular components of biochemistry. You'll look at simple biomolecules and non-covalent interactions, building up to biological oligomers before you are introduced to key concepts in pharmacology and pharmacokinetics, illustrated with medicinal chemistry case studies. This application of theory into practice through examining case studies prepares you for a career where you can get hands-on and make a real difference.
Organic Chemistry is the science of making molecules. Understanding organic reactions helps scientists invent new drugs, discover eco-friendly materials, and decode the language of life. This module builds upon your knowledge of structure and reactivity and applies it in the context organic synthesis, molecular design, reaction mechanisms. You'll dive deeper into learning about creating more challenging target molecules from simple ones; along with industry-standard techniques to identify and follow the progress of any organic reaction. Upon completion, you'll be able to identify the most important concepts in the rational design of synthetic routes for useful complex organic molecules such as drugs, pesticides, dyestuffs, and perfumes. So you have the knowledge to launch a career in chemistry in a industry you are passionate about.
Explore the fascinating interplay between transition metals, organic molecules, and main group elements, unlocking the secrets behind some of the most pivotal chemical transformations shaping our world. From unraveling the intricate mechanisms of catalysis to harnessing the catalytic power of transition metal complexes, you'll delve deep into the frontiers of chemical innovation. You'll also gain an understanding of the rich structural and chemical diversity of inorganic solid-state compounds that enable their applications as functional materials. This further builds on your knowledge of inorganic chemistry and gives you the tools you need for a successful and exciting career as a chemist.
As a forensic scientist, what would you do if someone comes across buried human remains? How do we collect evidence from a scene, document it and ensure we maintain a clear legal chain of custody? Why should we care about this? This module will develop your appreciation of a range of physical techniques applied to the collection of bulk and trace evidence materials in forensic science.
You'll look deeply into aspects of physical evidence, practical issues of item examination, legal process and general procedures associated with the collection and submission of a range of forensically-relevant materials. You'll also look at the processes that underpin the recovery of buried remains and how you being to analyse these to build a biological profile. This provides you with a broad understanding of scene and evidence processing to take forward into a future roles in practical forensic science.
The modern forensic chemist must operate successfully across a range of forensic and chemical disciplines, applying core knowledge to a range of unfamiliar problems. You'll venture through a diverse and challenging range of practical forensic, chemical and theoretical experiences as you develop your incident scene investigation skills, applying skills in evidence retrieval, preservation and documentation.
The experiments you conductwill cross many disciplines to illustrate the multi-faceted, versatile, and employable characteristics of a practising forensic chemist. You'll complete the module with more confidence working alone and in groups, with the knowledge and abilities to carry out, understand, analyse, evaluate, improve, and report on your forensic science and chemistry practical work. The range of skills you develop during this module will critically underpin success in the remainder of your studies and beyond.
Going abroad as part of your degree is an amazing experience and a chance to develop personally, academically and professionally. You experience a different culture, gain a new academic perspective, establish international contacts and enhance your employability.
After successfully completing stage 1 at your first attempt, with an average pass mark of at least 60%, you have the opportunity to spend a year abroad between Stages 2 and 3. We give advice and guidance on finding a placement.
Students on a four-year degree programme spend a year between Stages 2 and 3 at one of our partner universities in the USA, Canada or Hong Kong. For a full list, please see Go Abroad. Places are subject to availability.
Where could you go in a year?My ‘You only live once’ decision to study in Japan is one of the best I’ve ever made. I had a fantastic year.Cheyenne Nolan Find out more
You take all compulsory modules then choose either FSCI6010 Fires and Explosions or FSCI6003 DNA Analysis & Interpretation. Alongside your modules, you also complete an independent research project.
Modern Chemistry and Forensic Science rely heavily on a suite of chromatographic and spectroscopic techniques. But which of these should we apply for our particular cutting-edge chemical research, or to obtain the specific, precise and robust forensic evidence we require?
This module builds upon your knowledge of fundamental concepts and methods to understand the specificity, advantages and limitations of these more advanced techniques, and explore approaches to best apply them across a broad range of applications. Using this knowledge, you'll strategically choose and expertly apply advanced analytical methods across a range of scenarios explored elsewhere within your course.
Beyond this course, you can apply these interdisciplinary skills and technologies to pioneering research and in support of impacting real world issues in fields including environmental chemistry, forensic trace analysis and pharmaceutical development and detection.
What’s the importance of organic synthesis? Why should we learn about different organic processes? Organic synthesis is key to the success of multiple industries such as medical and pharmaceutical. In this module, we'll explore advanced complex methods for different organic transformations bringing together the beauty and complexity of organic chemistry. You'll also broaden and extend your knowledge of organic chemistry to standards used in modern chemistry research, academia, pharmaceutical science, and other related industries. You'll study the principles to master various bond formations and functional group transformations at an advanced level, gaining the essential skills you need to pursue a career in organic chemistry.
How can we apply our chemical knowledge and problem solving techniques to original chemistry challenges? How can we innovate within the chemical sciences to build on the knowledge base within our scientific and global communities?
You'll undertake a comprehensive research project, selected from a range of chemical disciplines. You will also gain skills in conducting and directing scientific research, data analysis and interpretation, problem solving and communication of results, culminating in the writing of your dissertation. This isn't just your chance to hone you skills and develop as a chemist, your dissertation itself is a real piece of scientific research you can use to demonstrate your knowledge and skills to employers following graduation.
What properties of a material define its value as trace evidence? How can we use this understanding to shape our approach to collecting and analysing these evidence types?
Understanding trace evidence is of fundamental importance to Forensic Science, providing links between people and locations or objects. In this advanced module you will delve into the analytical techniques and chemical principles critical for examining trace materials. From fibres and hair to glass fragments and makeup, you'll uncover the stories hidden in the smallest samples. Through discussion of real-world case studies and studying cutting edge approaches to analysing complex and inconsistent samples, you'll build the expertise to enable you to interpret this vital evidence type.
Why is it important to understand the influence of bias within forensic science? What are the expected professional standard for a practicing forensic scientists? How do forensic laboratories adhere to the strict standards the legal system expects of them? What is it like to give evidence in a court of law?
This module illustrates a range of contemporary topics in forensic science that underpin professional practice for those students wishing to enter the forensic science profession. The module content draws upon guidance published by the UK Forensic Science Regulator, UKAS, ENFSI, CSFS as well as academic and professional commentary, with a particular emphasise on evaluative reporting, case assessment and interpretation (CAI), quality standards, ethics in forensic science and bias.
You will be provided training in writing expert witness court reports before undergoing a mock courtroom exercise during which you will deliver expert testimony in a courtroom environment, developing essential skills for future case reporting forensic scientists.
What causes a fire to rage out of control? What makes an explosion so destructive? How do we gather and analyse evidence we normally rely upon from a scene that may have been compromised by a powerful blaze or destructive explosion?
This advanced module develops your understanding of the chemical and physical processes that drive fires and explosions. You'll learn how to identify accelerants, detonators and types of explosives, reconstruct fire scenes and develop insights as to the nature of fires and explosions, allowing you to formulate expert opinions based on your findings. You’ll also learn about how best to apply specialist analytical techniques for the analysis of fire and explosive evidence.
Forensic science and DNA have been inseparable topics for decades, but what role does DNA play in forensic science? You'll look at the structure of DNA and the powerful techniques we use to analyse this important evidence type within a forensic context. You'll gain a critical understanding of practical considerations in genetic analysis, the challenges associated with results interpretation and how best to report on complex samples. You'll not only gain mastery of DNA analysis techniques but also investigate profound insights into their application in the captivating field of forensic science, all while exploring the intriguing ethical quandaries connected with deciphering genetic information.
The degree is made of a combination of lectures, 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. The year in industry mark also counts towards your final degree result.
Coursework assessments include practical laboratory skills, presentation skills as well as essay and report writing.
Please note that there are degree thresholds at stage 1 that you will be required to pass in order to continue onto the next stages.
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.
Methods of assessment will vary according to subject specialism and individual modules.
Please refer to the individual module details under Course Structure.
For programme aims and learning outcomes please see the Programme Specification.
You'll graduate with an excellent grounding in scientific knowledge and extensive laboratory experience, as well as a toolbox of transferable skills highly sought after by employers. These include excellent communication and problem-solving skills; the ability to work independently or as part of a team; analytical thinking; and effective time management. Typical graduate destinations include:
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.
For details of when and how to pay fees and charges, please see our Student Finance Guide.
Fees for undergraduate students are £1,900.
Fees for undergraduate students are £1,430.
Students studying abroad for less than one academic year will pay full fees according to their fee status.
Students will require regular access to a desktop computer/laptop with an internet connection to use the University of Kent’s online resources and systems. Please see information about the minimum computer requirements for study.
There will be additional costs associated with the Year Abroad such as travel, accommodation, health and food costs. Please see Kent’s Go Abroad webpages on Costs and Funding for more information.
Find out more about accommodation and living costs, plus general additional costs that you may pay when studying at Kent.
Kent offers generous financial support schemes to assist eligible undergraduate students during their studies. See our funding page for more details.
We have a range of subject-specific awards and scholarships for academic, sporting and musical achievement.
We welcome applications from students all around the world with a wide range of international qualifications.
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