Chemistry is central to solving some of the most pressing problems facing humanity, including climate change, renewable energy, and eliminating hunger and disease. The analytical, numerical and logical reasoning skills that our courses develop mean that our graduates are in great demand across the entire spectrum of employment.
Through Chemistry we can tackle the energy crisis, discover new medicines or develop new materials for 21st century needs, from polymers for drug delivery to more efficient batteries. Delivered by one of the UK’s top Chemistry departments, ranked highly for both teaching and research, our BSc and MChem degrees provide a comprehensive study of the subject. In the third year we offer the flexibility to tailor your course by specialising in subject areas you’re passionate about through an extensive range of options. You can further enrich your course, and gain valuable professional experience, by extending its duration to include a year in industry. Alternatively you may opt for a three-month international placement in Year Three (replacing your core lab time).
We offer a high degree of flexibility, allowing you to transfer between Chemistry degree courses at any time in the first two years* as you develop your interests and future plans. You will study a range of core modules in Years 1 and 2 which provide a solid foundation in the subject, with the opportunity to take an extra optional module 'Starting a Business' in Year 2. In Year 3 you will use your experience of the themes and topics from Years 1 and 2 to choose optional modules to tailor your degree to suit your interests. At this stage you could find out how Chemistry is tackling the energy crisis, explore scientific writing, examine case studies in drug discovery or discover how polymer synthesis can be used to design drug delivery systems.
* All course transfers for overseas students are subject to UK visa regulations.
Lectures are the main way that the content and theory is delivered and all students taking a module attend the lectures at the same time. In Years 1 and 2 lectures are supported by tutorials with small groups of approximately 6-7 students. Workshops typically run in groups of 20-40 students and allow you to work with your peers to problem-solve with on-hand assistance from academic and teaching staff. Practical classes in our modern teaching labs are an integral part of any Chemistry student’s life giving you the opportunity to put theory into practice.
You should expect to attend around 10 lectures a week, 1 tutorial or workshop per week, and spend 5-10 hours on supervised practical (mainly laboratory and computing) work. For each 1 hour lecture, you should expect to put in a further 1-2 hours of private study.
You will be assessed via a combination of examinations and coursework such as laboratory reports, presentations, posters and essays to monitor your progress and provide you with regular feedback. The final degree classification is determined by Year 1 (10%), Year 2 (30%) and Year 3 (60%).
BSc placement project may be taken in Year 3, replacing Year 3 labs.
We give BSc students the opportunity to source a short industrial placement between April and June to replace the laboratory classes that the students at Warwick take during the summer term. Dedicated assistance from a placement and careers support team is available to help you find an employer. If you take this module you must write a 5000-word project report during your placement; your performance will also be assessed by your industrial supervisor. These two components make up the final grade for the placement, worth 25% of the year, which counts towards the final degree result.
It is also possible to carry out a 12 month industrial placement via an ‘Intercalated Year’. The placement should involve working for a company, institution, or organisation related to chemistry, allowing students to gain valuable professional experience, without formally counting towards the final degree result. The words ‘with Intercalated Year’ are added to the degree title. Placement opportunities are available as advertised by UK/worldwide industry. Industrial placements in Europe qualify for ERASMUS support. These options are assessed and therefore will contribute as a formal part of your degree.
Students in Chemistry are also supported through our Department of Student Opportunity to gain experience during vacation periods in other industry sectors including teaching, finance, data science, law, consultancy, marketing and IT/technology. We also have an Undergraduate Research Support Scheme which allows undergraduate students to work on an academic research project in Chemistry or another department during the summer vacation.
IB: 32 to include 6 in Higher Level Chemistry and 5 in Maths, Physics or Biology at Higher Level.
**You must also achieve a pass in the science practical if your science A level includes a separate practical assessment.
BTEC: We welcome applications from students taking BTECs alongside A level Chemistry.
Typical BTEC offer: D in a BTEC Level 3 Extended Certificate or DD in a BTEC Level 3 National Diploma, plus AA in two A levels including Chemistry and one of the following: Mathematics, Further Mathematics, Physics, Biology, Geology or Statistics.
We consider applicants taking Science-related BTECs alongside A Level Chemistry on a case-by-case basis.
Our standard GCSE requirements
All applicants must possess a minimum level of competence in the English Language and in Mathematics/Science. A pass at Grade C or above, or Grade 4 or above in GCSE English Language and in Mathematics or a Science, or an equivalent qualification, satisfies this University requirement.
Additional requirements: You will also need to meet our English Language requirements.
Contextual data and differential offers
Warwick may make differential offers to students in a number of circumstances. These include students participating in the Realising Opportunities programme, or who meet two of the contextual data criteria. Differential offers will be one or two grades below Warwick’s standard offer (to a minimum of BBB).
Warwick International Foundation Programme (IFP)
All students who successfully complete the Warwick IFP and apply to Warwick through UCAS will receive a guaranteed conditional offer for a related undergraduate programme (selected courses only). For full details of standard offers and conditions visit the IFP website.
We welcome applications from students with other internationally recognised qualifications. For more information please visit the international entry requirements page.
Taking a gap year
Applications for deferred entry welcomed.
We do not typically interview applicants. Offers are made based on your UCAS form which includes predicted and actual grades, your personal statement and school reference.
Introduction to Inorganic Chemistry
You will begin your studies by gaining a solid understanding of chemical bonding and interatomic interactions, and how they determine the structure and reactivity of inorganic compounds. You will later apply your understanding to the chemistry of transition metal complexes, Bronsted and Lewis acidity, and the redox properties of main group compounds. You will examine fundamental aspects of crystal field theory, and develop your practical skills in using the models studied in light of their industrial applications and use in materials science.
Introduction to Organic Chemistry
You will start this foundation module by acquiring a sure grasp of the structures, properties and reactions of organic molecules. You will expand your knowledge of different types of compounds, discover methods for creating molecules, and be able to describe bonding in organic compounds to predict the reactivity of molecules. You will apply your understanding to the synthesis and chemistry of key functional groups and to the structure, properties and reactivities of biologically important molecules and organic macromolecules.
Introduction to Physical Chemistry
You will develop your understanding of core concepts in physical chemistry: quantum mechanics, kinetics, thermodynamics and spectroscopy. You will learn how the laws of quantum mechanics can be used to predict the properties of atoms and molecules, how the kinetic rate laws of multistep chemical processes emerge from elementary reaction steps, how thermodynamics can be used to predict the properties of gases, and how light interacts with matter.
Chemistry Laboratory and Assessed Work
You can study the theory of chemistry, but the laboratory is where science comes alive. You will put your chemistry knowledge to work with experiments that familiarise you with scientific instrumentation and data collection, and conduct analyses using databases and software. Later, you will use these techniques to create compounds, investigate concepts and prove theories. You will also have opportunities to combine established techniques, equipping you with the understanding and practical competence needed to develop your own research methods and problem-solving techniques.
In this module, you will experience more hands-on investigation, synthesis and analysis as the skills you have developed allow you to conduct more complicated multistep syntheses, learn advanced techniques and take more control and ownership of your work. By the end, you will be able to plan experiments, set up and monitor instrumentation and record your results, and characterise and assess reactions using spectroscopy alongside other sophisticated techniques. You will also learn to process and present your results in statistical, graphical and written form.
Selective Organic Synthesis
Having already developed a foundation understanding of organic chemistry you will now broaden your knowledge of the range of synthetic routes available to design molecules. You will examine a variety of methods for forming different bond types and functional groups and consider the factors influencing the choice of reagents and reaction conditions. You will use your knowledge to form your own strategies to design organic synthesis routes to target molecules.
Mechanistic and Biological Chemistry
In this module you will look at the features of organic molecules that affect the reactions that they can undergo. You will develop the ability to use structures and information about rates to predict reactions and identify the mechanisms of organic reactions. You will use your knowledge of the structures and reactivity of small molecules and apply these to the Chemistry of carbohydrates, proteins and enzymes. During the module you will also gain an understanding of the drug discovery process.
Transition Metal Chemistry
You will develop a formal understanding of bonding in transition metal complexes, as a platform for understanding the reactivity and spectroscopy of such complexes, and acquire a systematic knowledge of organometallic chemistry through exploring some of the conceptual links between organic and inorganic. You will be able to analyse the successes and limitations of different methods and demonstrate your understanding of the eighteen electron rule and its exceptions.
Materials and Polymers
Materials and Polymers are used in all applications from functional to structural applications. They turn molecules into useful devices and items, or are extended arrays of connected atoms that have unique properties as solids. This module will give you an understanding of how materials can be made and how they can be characterised. This will let you appreciate how materials can be designed for use in energy, healthcare, electronics, personal care and other applications.
Electrons in Molecules and Solids
You will develop in-depth knowledge of symmetry and group theory and its role in molecular structure and bonding, and interpretation of electronic and vibrational spectra. You will develop an understanding of how photo-excited molecules undergo relaxation through radiative and non-radiative decay processes. You will be introduced to the fundamental concepts of solid state chemistry that relates to crystal structure, chemical bonding in solids and the electronic properties of solids. This will enable you to determine how quantum and statistical mechanics applied to solid materials can be used to derive various condensed matter properties, including electrical conduction and opto-electronic characteristics.
Statistical Mechanics and Electrochemistry
In this module you will study and then bring together concepts from electrochemistry and statistical mechanics. You will be able to make connections between these two fields, thus unravelling why things in chemistry are the way they are - with important reverberations across biochemistry (e.g. nerve signalling, vision) and materials science (e.g. design of novel materials, such as nanowires and nanoparticles). You will be able to apply the theoretical foundations of the physical chemistry to systems of practical relevance such as ionic species in aqueous solutions (think table salt dissolved in water!).
Advanced Organic Chemistry and Laboratory
You will gain the necessary advanced knowledge to allow you to understand and apply empirical rules and models related to the reactions of organic molecules, complex pericyclic reactions, intramolecular cyclisation processes, rearrangement reactions of reactive intermediates, and reactions creating new stereogenic centres by either substrate, reagent or catalyst control.
Advanced Inorganic Chemistry and Laboratory
This advanced module will provide the background required to understand the issues affecting industrial catalytic reactions. You will study the application of organometallic chemistry and physical chemistry (particularly kinetics), drawing together aspects of this work developed in year 2 and extending your understanding to the types of reactions and catalysis used widely in chemical industries, such as those concerned with petrochemicals, polymers, fine chemicals and pharmaceuticals.
Advanced Physical Chemistry and Laboratory
You will be given an introduction to two advanced topics in physical chemistry: interfacial chemistry and molecular modelling. You will study a range of surface and interfacial processes, including both solid and liquid interfaces, and learn about advanced experimental methods for characterising them. You will learn the basic concepts in molecular dynamics simulations, including periodic boundaries, integration algorithms and thermodynamic ensembles. A significant aspect of this module is to demonstrate the importance of surface processes in chemistry and the borders of chemical engineering, biomedical science, materials science and physics. As well as standard lectures, these aims will be supported by experimental laboratory sessions which have an emphasis on designing and implementing experiments.
Advanced Analytical Chemistry
You will focus on the theoretical and practical aspects of instrumental analytical techniques, including data generation, acquisition, interpretation, instrumentation and state-of-the-art applications. You will consider the specific techniques of chromatography, mass spectrometry and nuclear magnetic resonance spectroscopy in both lecture and workshop environments. As part of your studies, you will learn to test hypotheses, use databases and software independently, analyse your findings and improve your ability to communicate these in written form.
Selection of optional modules that current students are studying:
Molecular Structure and Dynamics; Bioorganic Chemistry; Polymer and Colloid Science; Energy; Communicating Science; Co-ordination & Bio-Inorganic Chemistry; Secondary School Teaching.
Graduates from these courses have gone on to work for employers including: Amazon, Deloitte, HMRC, Ovo Energy, Public Health England, Royal Society of Chemistry, Unilever and Vertex Pharmaceuticals.
They have pursued roles such as: business and financial project management professionals; chemical scientists; laboratory technicians; management consultants and business analysts; researchers; sales accounts and business development managers.
Helping you find the right career
Our department has a dedicated professionally qualified Senior Careers Consultant who works within Student Careers and Skills to help you as an individual. Additionally your Senior Careers Consultant offers impartial advice and guidance together with workshops and events, tailored to our department, throughout the year. Previous examples of workshops and events include:
- Careers in Science
- Career Options with Chemistry
- Warwick careers fairs throughout the year
- Graduate Jobs and Further Study Options - Making decisions for Chemistry students
- Finding experience to boost your CV for Chemistry students
- Synthesise Your Career Year One Employability Module
- SME Careers Events – e.g. British Coatings Federation Careers Evening
- Career Options with Chemistry Presentation and Networking Evening
Find out more about our Careers & Skills Services here.
Degree of Bachelor of Science (BSc)
3 years full-time
28 September 2020
Location of study
University of Warwick, Coventry
Find out more about fees and funding
Additional course costs
There may be costs associated with other items or services such as academic texts, course notes, and trips associated with your course. Students who choose to complete a work placement will pay reduced tuition fees for their third year.
This information is applicable for 2020 entry.
Given the interval between the publication of courses and enrolment, some of the information may change. It is important to check our website before you apply. Please read our terms and conditions to find out more.
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