Bachelor of Science (BSc)

BSc Pharmacology with Entrepreneurship

Develop your entrepreneurial skills while you study pharmacology to enhance your employability.
  • Duration: 4 Years Full Time
  • Year of entry: 2025
  • UCAS course code: B217 / Institution code: M20
  • Key features:
  • Study abroad
  • Study with a language
  • Accredited course

Full entry requirementsHow to apply

Fees and funding

Fees

Tuition fees for home students commencing their studies in September 2025 will be £9,535 per annum (subject to Parliamentary approval). Tuition fees for international students will be £34,500 per annum. For general information please see the undergraduate finance pages.

Tuition fees are considerably lower for your placement year. Please see the fees page for full details.

Policy on additional costs

All students should normally be able to complete their programme of study without incurring additional study costs over and above the tuition fee for that programme. Any unavoidable additional compulsory costs totalling more than 1% of the annual home undergraduate fee per annum, regardless of whether the programme in question is undergraduate or postgraduate taught, will be made clear to you at the point of application. Further information can be found in the University's Policy on additional costs incurred by students on undergraduate and postgraduate taught programmes (PDF document, 91KB).

Scholarships/sponsorships

Students participating in placements outside the UK may be able to apply for funding from the UK's Turing scheme depending on eligibility. Priority will be given to students from low income households.

Course unit details:
Fundamentals of Chemistry

Course unit fact file
Unit code CHEM10111
Credit rating 10
Unit level Level 1
Teaching period(s) Semester 1
Available as a free choice unit? No

Overview

CHEM10111 aims to provide a description of: atomic structure and molecular structure using various models for chemical bonding; the structure and properties of aromatic and heteroaromatic molecules; the phenomena of electron delocalisation (resonance); to explain aspects of conformation, isomerism and chirality within molecules; to provide an introduction to the thermodynamics of solutions; and to cover key concepts in chemical reaction kinetics and redox processes.

 

 

Aims

CHEM10111 aims to provide a description of: atomic structure and molecular structure using various models for chemical bonding; the structure and properties of aromatic and heteroaromatic molecules; the phenomena of electron delocalisation (resonance); to explain aspects of conformation, isomerism and chirality within molecules; to provide an introduction to the thermodynamics of solutions; and to cover key concepts in chemical reaction kinetics and redox processes.

 

Learning outcomes

On successful completion of the course students should be able to demonstrate a working knowledge of the basic principles of physical, inorganic and organic chemistry sufficient to recognise their involvement in biological and other areas. 

More specifically, students should be able to:
•    State or calculate values associated with a given atom or ion (e.g. atomic / mass number, number of protons / neutrons / electrons, relative atomic mass)    
•    Determine the electronic configuration and draw orbital energy diagrams using Hund’s rule and the Pauli exclusion principle
•    Draw and interpret Lewis structures (including formal charges) for molecules containing H, C, N and O, and predict their geometry based on VSEPR theory
•    Identify characteristics of a given atom or molecule (e.g. hybridisation state, relative bond length, bond polarity, molecular dipoles, hindered bond rotation)
•    Identify characteristics of biologically-important molecules (e.g. conjugation, planarity, resonance forms, aromaticity, number of pi-electrons)
•    Identify chiral molecules and chiral centres of molecules with biological relevance
•    Assign groups of molecules as being identical, distinct or isomeric (including constitutional, geometric and optical isomers)
•    Identify simple functional groups and interconvert structures and standard names of simple, biologically-relevant molecules.
•    State and calculate equilibrium constants and describe the behaviour of reversible reactions using Le Chatelier’s principle
•    Calculate the pH of solutions of both strong and weak acids, and of solutions containing buffers
•    Calculate the Gibbs free energy from enthalpy and entropy, and from an equilibrium constant and relate this information to the equilibrium position of a reversible reaction
•    Calculate the enthalpy of combustion using Hess’s law
•    Use transition state theory to relate the free energy barrier and rate of a reaction
•    Determine the rate equation for a given reaction and use the concentration-dependence of an observed rate constant to determine the rate order
•    Characterise biologically-important reactions as oxidation or reduction reactions and determine reduction potentials from their Nernst half-reactions
 

 

Syllabus

  • CHEM10111 is taught as six topics, or learning modules (LMs):
    LM 1.  Atoms, ions and molecules; the periodic table and periodicity; atomic structure; electron configurations.
    LM 2.  Chemical bonding and non-covalent interactions.
    LM 3.  Functional group recognition and reaction types.
    LM 4.  Stereochemistry and chirality; resonance and aromatics;
    LM 5.  Equilibria, pH and buffers; basic thermodynamics.
    LM 6.  Oxidation and reduction; reaction rates.


     

Transferable skills and personal qualities

Problem solving and reasoning. 
Group discussion and interpersonal communication.
Numerical skills (mathematical calculations).
 


 

 

Employability skills

Analytical skills
Analytical skills may be developed through problem-solving clinics and e-learning modules
Oral communication
Students are encouraged to ask and answer questions during lectures and workshops.
Problem solving
Students have the opportunity to develop their problem solving skills in problem-solving clinics workshops and eLearning modules

Assessment methods

Method Weight
Written exam 80%
Set exercise 20%

Feedback methods

There are two in person feedback classes each week (plus revision sessions). Here students receive feedback from each other via group work and discussion of problem sets. They also receive group feedback from circulating lecturers / teaching assistants. General mistakes, misconceptions and best practice examples from the group work is incorporated into plenary feedback at regular intervals throughout the classes and this aspect is also recorded via podcasting.

There are also regular online quizzes (ePBL tests) that provide feedback via formative testing and information of which answers were correct / incorrect.

There is also a weekly drop in session with the lecturers for more individualised support.

 

Recommended reading

Bruice, PY Organic Chemistry, 6th, 7th or 8th edition, Prentice-Hall, 2011, 2014 or 2016.

 

Study hours

Scheduled activity hours
Assessment written exam 2
Lectures 22
Independent study hours
Independent study 76

Teaching staff

Staff member Role
Nicholas Weise Unit coordinator

Additional notes

 

Assessment task

Length

Weighting within unit (if relevant)

 

LM1-LM6 ePBL blackboard tests

 

 

Exam - MCQ and multiple answer format hosted on blackboard.

 

 

6 x 10 MCQs

 

2 hours

 

20%

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