Key Information

Full-time

3 years

Typical Offer

BBC (112 UCAS Tariff points from a minimum of 3 A levels)

Campus

Brayford Pool

Validation Status

Validated

Fees

View

UCAS Code

F1X1

Course Code

CHMEDUUB

Key Information

Full-time

3 years

Typical Offer

BBC (112 UCAS Tariff points from a minimum of 3 A levels)

Campus

Brayford Pool

Validation Status

Validated

Fees

View

UCAS Code

F1X1

Course Code

CHMEDUUB

BSc (Hons) Chemistry with Education BSc (Hons) Chemistry with Education

Chemistry at Lincoln is ranked in the top 10 in the UK for overall student satisfaction, teaching, and academic support according to the National Student Survey 2020 (out of 55 ranking institutions).

Key Information

Full-time

3 years

Typical Offer

BBC (112 UCAS Tariff points from a minimum of 3 A levels)

Campus

Brayford Pool

Validation Status

Validated

Fees

View

UCAS Code

F1X1

Course Code

CHMEDUUB

Key Information

Full-time

3 years

Typical Offer

BBC (112 UCAS Tariff points from a minimum of 3 A levels)

Campus

Brayford Pool

Validation Status

Validated

Fees

View

UCAS Code

F1X1

Course Code

CHMEDUUB

Dr Tasnim Munshi - Programme Leader

Dr Tasnim Munshi - Programme Leader

Tasnim has full responsibility for the management of all teaching provision within the School of Chemistry. Tasnim's specialisms are co-ordination chemistry, spectroscopy, and inorganic chemistry.

School Staff List

Welcome to BSc (Hons) Chemistry with Education

By offering a thorough grounding in chemistry along with the intellectual and research skills needed for a career in teaching, this course aims to develop students with the skills to teach the next generation about the fundamental importance of chemistry.

The programme has been developed in collaboration with the University’s School of Education. This School works closely with primary and secondary schools, creating a curriculum and mode of teaching that is in line with employer expectations. As part of the degree, there may be the opportunity to undertake a teaching placement with a local school in addition to other educational experiences. Students are responsible for their own travel, accommodation, and general living costs when undertaking these placements.

The course is designed to encourage a collaborative approach with students engaging with one another, academics and teachers. This can support critical reading, debate, reflection on experience and research into topics of interest.

Welcome to BSc (Hons) Chemistry with Education

By offering a thorough grounding in chemistry along with the intellectual and research skills needed for a career in teaching, this course aims to develop students with the skills to teach the next generation about the fundamental importance of chemistry.

The programme has been developed in collaboration with the University’s School of Education. This School works closely with primary and secondary schools, creating a curriculum and mode of teaching that is in line with employer expectations. As part of the degree, there may be the opportunity to undertake a teaching placement with a local school in addition to other educational experiences. Students are responsible for their own travel, accommodation, and general living costs when undertaking these placements.

The course is designed to encourage a collaborative approach with students engaging with one another, academics and teachers. This can support critical reading, debate, reflection on experience and research into topics of interest.

How You Study

Students will be given the chance to gain core knowledge in the fundamentals of chemistry in the first year, dealing with topics such as an synthetic methodologies and molecular characterisation; laboratory techniques; molecular structure, bonding and mechanism; and electronic structure, spectroscopy, and reactivity in p-block compounds.

The second and third years involve core chemistry and can include a teaching placement in both years. Subjects can include education practice and science education as well as a third-year research project, which could be carried out in a school on a relevant area of science education. Students are responsible for their own travel, accommodation, and general living costs when on placement.

The course includes lectures, seminars, laboratory-based practical classes, and lectures from visiting scientists. Extensive small-group teaching and innovative team-based learning aims to create a supportive learning environment to help students train through practice and problem-based approaches.

What You Need to Know

We want you to have all the information you need to make an informed decision on where and what you want to study. To help you choose the course that’s right for you, we aim to bring to your attention all the important information you may need. Our What You Need to Know page offers detailed information on key areas including contact hours, assessment, optional modules, and additional costs.

Find out More

How You Study

Students will be given the chance to gain core knowledge in the fundamentals of chemistry in the first year, dealing with topics such as an synthetic methodologies and molecular characterisation; laboratory techniques; molecular structure, bonding and mechanism; and electronic structure, spectroscopy, and reactivity in p-block compounds.

The second and third years involve core chemistry and can include a teaching placement in both years. Subjects can include education practice and science education as well as a third-year research project, which could be carried out in a school on a relevant area of science education. Students are responsible for their own travel, accommodation, and general living costs when on placement.

The course includes lectures, seminars, laboratory-based practical classes, and lectures from visiting scientists. Extensive small-group teaching and innovative team-based learning aims to create a supportive learning environment to help students train through practice and problem-based approaches.

What You Need to Know

We want you to have all the information you need to make an informed decision on where and what you want to study. To help you choose the course that’s right for you, we aim to bring to your attention all the important information you may need. Our What You Need to Know page offers detailed information on key areas including contact hours, assessment, optional modules, and additional costs.

Find out More

An Introduction to Your Modules

Module Overview

This module extends the theoretical approaches related to atomic and molecular structure to develop models to explain structure, reactivity and spectroscopy of systems. It aims to provide the underpinning knowledge to understand how structure and reactivity are applied to develop new compounds and materials that change the world around us.

Module Overview

This module aims to provide a breadth core understanding of the main chemical principles behind the chemistry of elements, systems in equilibrium and chemical reactivity, with special emphasis in basic organic reactions. Students will have the opportunity to learn basic concepts about elements and their main periodic properties and how some of these elements can be combined to produce molecules. Organic molecules will be used as an example to explain reactivity and how chemical structure can condition molecular properties. Energy transfers are also studied to understand the key role they play in chemical and physical transformations and how systems in equilibrium are affected by these.

Module Overview

This module aims to introduce core chemistry concepts with an emphasis on chemical change. Movement and interaction of molecules and chemical kinetics are key physical chemistry topics covered and applied to chemical reactions of both organic and inorganic substances. The use of empirical data to develop and support laws, theories and models will be covered and how chemical kinetics can be used to develop reaction mechanisms. An introduction to crystallography and absorption spectroscopy is covered.

Module Overview

This module aims to provide students with an overview of the application of chemistry in commercial and industrial contexts to underpin more detailed coverage in later models in this series. The module aims to develop fundamental skills in mathematics and IT which will underpin their core chemistry modules. The module will also give students the opportunity to develop their transferable skills including knowledge of health and safety in the chemistry laboratory, effective communication in both written and oral form and group work.

Module Overview

This module aims to introduce students to the chemistry laboratory environment. The purpose of the module is to provide students with a platform which can be built upon in subsequent practical modules and equalise their potentially pre-university laboratory experience. Within this module students can learn a portfolio of skills and be evaluated via competency based assessments. The module also covers best practice in health and safety in the laboratory environment as part of the series of key core concepts delivered in the module.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 1.1 and Core Chemistry 1.2. The module will outline key organic, inorganic and physical chemistry concepts with a series of laboratory activities reinforced by the use of relevant analytical techniques and tools throughout a range of experiments.

Module Overview

This module further builds on 'Introduction to Professional Practice' and aims to provide an introduction to the application of analytical sciences in industry. It aims to develop students' mathematics and statistics skills whilst also continuing the development of their transferable skills relating to information retrieval including literature searching and critique, the use of chemistry-based databases and mobile applications and their scientific writing skills.

Module Overview

This module aims to provide a breadth core understanding of the physicochemical principles behind some of the main analytical techniques and how these can be applied to identify atomic and molecular structures in both inorganic and organic chemistry. It also offers an insight on advanced synthetic methods and how these techniques can be used to explain and interpret structure and reactivity of complex molecules, such as coordination and organometallic compounds.

Module Overview

This module aims to further develop core chemistry concepts relating to chemical change. Electrochemistry is used to study thermodynamic properties of redox reactions as well as the kinetics of electrode processes. The kinetics of complex reactions builds upon the chemical kinetics material covered at level one. Bonding between metals and carbon is explored and further developed as the main group organometallics.

Module Overview

This module provides an introduction to education, enabling students to begin to develop and apply their knowledge, understanding and skills within this area. Students will reflect on the changing theories and practices in education. Students will develop their knowledge of the curriculum, behaviour and classroom management areas in education and primarily that of secondary school. The module enables students to consider psychological perspectives in education as well as offering students the opportunity to examine historical and political aspects of education through literature and practice.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 2.1, with a strong focus on organic chemistry. The module will outline essential complex organic chemistry concepts with a series of laboratory activities designed around multistep syntheses and reinforced by the use of relevant analytical techniques and tools throughout a range experiments.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 2.2, with a strong focus on inorganic and physical chemistry. The module is constituted of a series of laboratory activities designed to familiarise students with an array of techniques centred around key aspects of inorganic syntheses. Specifically, the module emphasizes stability and speciation methods and their applications to the inorganic chemistry field. All aspects of the module will be supported by associated relevant analytical technologies.

Module Overview

This module builds on Professional Practice 2.1 and further looks at chemistry in context and in particular industry, with a focussed introduction to the pharmaceuticals sector. The module also aims to develop understanding of employability, the job application process and the necessity for reflective practice and continued professional development in a competitive job market.

Module Overview

This module is designed to provide students with an insight into a STEM experience and does this by combining university lectures with an experience of their choosing, this may include a placement in a local school. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge STEM education research and will examine how this research impacts directly on practice. Students can gain an insight into some of the key ideas in STEM and how these are implemented through their chosen experiences.

Module Overview

This module aims to provide deeper understanding on physicochemical principles behind materials and their properties, exploring advanced concepts in supramolecular chemistry and synthetic routes for more complex organic molecules. Crystals, colloids, discontinuous phases and solid state chemistry concepts are studied in depth to understand physical and chemical properties that give these materials a wide range of application in industry and research.

Module Overview

This module covers in greater depth the thermodynamics and kinetics of processes occurring on solid surfaces. Heterogeneous catalysis is used as an example of how reactions at solid surfaces differ from those in the bulk. Electrochemistry is further developed. Organic chemistry topics are the advanced areas of radical chemistry and orbital symmetry along with heteroelement and organometallic synthesis. Concepts of supramolecular chemistry are covered.

Module Overview

This module builds upon previous practical modules and provides a support for the illustration of the theory delivered in the Core chemistry 3.1 module. The concept of this module is to offer students the opportunity to experience and dissect the process of designing a material which fulfils specific requirements or needs, its synthesis and its characterisation. Through this process, the module offers the opportunity to host advanced complex organic syntheses (such as asymmetric synthesis) and supramolecular synthesis. Additionally, the module introduces students to a series of stereoselective analytical techniques designed to characterise aforementioned materials.

Module Overview

This module builds on STEM experience 1 and is designed to provide students with a deeper insight into a STEM experience and does this by combining university lectures with an experience of their choosing, this can include a placement in a local school. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge STEM education research and will examine how this research impacts directly on practice. Students will gain an insight into some of the key ideas in STEM and how these are implemented through their chosen experiences.

Module Overview

This module is designed to provide students with an insight into STEM teaching and learning from primary to secondary school level. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge research and how this impacts on practice. Students will be able to gain an insight into some of the key ideas in STEM pedagogy.

Module Overview

This module offers students the opportunity to undertake an independent programme of research under the supervision of a member of staff. It provides students with the opportunity to demonstrate original and critical thoughts as well as build practical and project-management skills. Students may select a project from a series of proposals provided by staff, conduct a review of the literature, identify a hypothesis, and design a programme of research to test the hypothesis (under guidance from their supervisor). Students will be expected to manage the project including obtaining relevant ethical approval and conducting COSHH and risk assessments. Students may analyse and interpret data which will be collected in the laboratory or the field, or using computational sources (e.g. software for mathematical modelling; the internet for the meta-analysis of pre-collected data). The project will be written up either as a thesis or a scientific paper following closely defined criteria.

† Some courses may offer optional modules. The availability of optional modules may vary from year to year and will be subject to minimum student numbers being achieved. This means that the availability of specific optional modules cannot be guaranteed. Optional module selection may also be affected by staff availability.

An Introduction to Your Modules

Module Overview

This module extends the theoretical approaches related to atomic and molecular structure to develop models to explain structure, reactivity and spectroscopy of systems. It aims to provide the underpinning knowledge to understand how structure and reactivity are applied to develop new compounds and materials that change the world around us.

Module Overview

This module aims to provide a breadth core understanding of the main chemical principles behind the chemistry of elements, systems in equilibrium and chemical reactivity, with special emphasis in basic organic reactions. Students will have the opportunity to learn basic concepts about elements and their main periodic properties and how some of these elements can be combined to produce molecules. Organic molecules will be used as an example to explain reactivity and how chemical structure can condition molecular properties. Energy transfers are also studied to understand the key role they play in chemical and physical transformations and how systems in equilibrium are affected by these.

Module Overview

This module aims to introduce core chemistry concepts with an emphasis on chemical change. Movement and interaction of molecules and chemical kinetics are key physical chemistry topics covered and applied to chemical reactions of both organic and inorganic substances. The use of empirical data to develop and support laws, theories and models will be covered and how chemical kinetics can be used to develop reaction mechanisms. An introduction to crystallography and absorption spectroscopy is covered.

Module Overview

This module aims to provide students with an overview of the application of chemistry in commercial and industrial contexts to underpin more detailed coverage in later models in this series. The module aims to develop fundamental skills in mathematics and IT which will underpin their core chemistry modules. The module will also give students the opportunity to develop their transferable skills including knowledge of health and safety in the chemistry laboratory, effective communication in both written and oral form and group work.

Module Overview

This module aims to introduce students to the chemistry laboratory environment. The purpose of the module is to provide students with a platform which can be built upon in subsequent practical modules and equalise their potentially pre-university laboratory experience. Within this module students can learn a portfolio of skills and be evaluated via competency based assessments. The module also covers best practice in health and safety in the laboratory environment as part of the series of key core concepts delivered in the module.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 1.1 and Core Chemistry 1.2. The module will outline key organic, inorganic and physical chemistry concepts with a series of laboratory activities reinforced by the use of relevant analytical techniques and tools throughout a range of experiments.

Module Overview

This module further builds on 'Introduction to Professional Practice' and aims to provide an introduction to the application of analytical sciences in industry. It aims to develop students' mathematics and statistics skills whilst also continuing the development of their transferable skills relating to information retrieval including literature searching and critique, the use of chemistry-based databases and mobile applications and their scientific writing skills.

Module Overview

This module aims to provide a breadth core understanding of the physicochemical principles behind some of the main analytical techniques and how these can be applied to identify atomic and molecular structures in both inorganic and organic chemistry. It also offers an insight on advanced synthetic methods and how these techniques can be used to explain and interpret structure and reactivity of complex molecules, such as coordination and organometallic compounds.

Module Overview

This module aims to further develop core chemistry concepts relating to chemical change. Electrochemistry is used to study thermodynamic properties of redox reactions as well as the kinetics of electrode processes. The kinetics of complex reactions builds upon the chemical kinetics material covered at level one. Bonding between metals and carbon is explored and further developed as the main group organometallics.

Module Overview

This module provides an introduction to education, enabling students to begin to develop and apply their knowledge, understanding and skills within this area. Students will reflect on the changing theories and practices in education. Students will develop their knowledge of the curriculum, behaviour and classroom management areas in education and primarily that of secondary school. The module enables students to consider psychological perspectives in education as well as offering students the opportunity to examine historical and political aspects of education through literature and practice.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 2.1, with a strong focus on organic chemistry. The module will outline essential complex organic chemistry concepts with a series of laboratory activities designed around multistep syntheses and reinforced by the use of relevant analytical techniques and tools throughout a range experiments.

Module Overview

This module aims to provide students with the practical experience associated with the topics delivered in Core Chemistry 2.2, with a strong focus on inorganic and physical chemistry. The module is constituted of a series of laboratory activities designed to familiarise students with an array of techniques centred around key aspects of inorganic syntheses. Specifically, the module emphasizes stability and speciation methods and their applications to the inorganic chemistry field. All aspects of the module will be supported by associated relevant analytical technologies.

Module Overview

This module builds on Professional Practice 2.1 and further looks at chemistry in context and in particular industry, with a focussed introduction to the pharmaceuticals sector. The module also aims to develop understanding of employability, the job application process and the necessity for reflective practice and continued professional development in a competitive job market.

Module Overview

This module is designed to provide students with an insight into a STEM experience and does this by combining university lectures with an experience of their choosing, this may include a placement in a local school. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge STEM education research and will examine how this research impacts directly on practice. Students can gain an insight into some of the key ideas in STEM and how these are implemented through their chosen experiences.

Module Overview

This module aims to provide deeper understanding on physicochemical principles behind materials and their properties, exploring advanced concepts in supramolecular chemistry and synthetic routes for more complex organic molecules. Crystals, colloids, discontinuous phases and solid state chemistry concepts are studied in depth to understand physical and chemical properties that give these materials a wide range of application in industry and research.

Module Overview

This module covers in greater depth the thermodynamics and kinetics of processes occurring on solid surfaces. Heterogeneous catalysis is used as an example of how reactions at solid surfaces differ from those in the bulk. Electrochemistry is further developed. Organic chemistry topics are the advanced areas of radical chemistry and orbital symmetry along with heteroelement and organometallic synthesis. Concepts of supramolecular chemistry are covered.

Module Overview

This module builds upon previous practical modules and provides a support for the illustration of the theory delivered in the Core chemistry 3.1 module. The concept of this module is to offer students the opportunity to experience and dissect the process of designing a material which fulfils specific requirements or needs, its synthesis and its characterisation. Through this process, the module offers the opportunity to host advanced complex organic syntheses (such as asymmetric synthesis) and supramolecular synthesis. Additionally, the module introduces students to a series of stereoselective analytical techniques designed to characterise aforementioned materials.

Module Overview

This module builds on STEM experience 1 and is designed to provide students with a deeper insight into a STEM experience and does this by combining university lectures with an experience of their choosing, this can include a placement in a local school. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge STEM education research and will examine how this research impacts directly on practice. Students will gain an insight into some of the key ideas in STEM and how these are implemented through their chosen experiences.

Module Overview

This module is designed to provide students with an insight into STEM teaching and learning from primary to secondary school level. The module is particularly aimed at those considering a career in STEM teaching and provides students with an opportunity to engage with cutting edge research and how this impacts on practice. Students will be able to gain an insight into some of the key ideas in STEM pedagogy.

Module Overview

This module offers students the opportunity to undertake an independent programme of research under the supervision of a member of staff. It provides students with the opportunity to demonstrate original and critical thoughts as well as build practical and project-management skills. Students may select a project from a series of proposals provided by staff, conduct a review of the literature, identify a hypothesis, and design a programme of research to test the hypothesis (under guidance from their supervisor). Students will be expected to manage the project including obtaining relevant ethical approval and conducting COSHH and risk assessments. Students may analyse and interpret data which will be collected in the laboratory or the field, or using computational sources (e.g. software for mathematical modelling; the internet for the meta-analysis of pre-collected data). The project will be written up either as a thesis or a scientific paper following closely defined criteria.

† Some courses may offer optional modules. The availability of optional modules may vary from year to year and will be subject to minimum student numbers being achieved. This means that the availability of specific optional modules cannot be guaranteed. Optional module selection may also be affected by staff availability.

How you are assessed

Assessment Feedback

The University of Lincoln's policy on assessment feedback aims to ensure that academics will return in-course assessments to students promptly – usually within 15 working days after the submission date.

Methods of Assessment

The way students are assessed on this course may vary for each module. Examples of assessment methods that are used include coursework, such as written assignments, reports or dissertations; practical exams, such as presentations, performances or observations; and written exams, such as formal examinations or in-class tests. The weighting given to each assessment method may vary across each academic year. The University of Lincoln aims to ensure that staff return in-course assessments to students promptly.

The way students are assessed on this course may vary for each module. Examples of assessment methods that are used include coursework, such as written assignments, reports or dissertations; practical exams, such as presentations, performances or observations; and written exams, such as formal examinations or in-class tests. The weighting given to each assessment method may vary across each academic year. The University of Lincoln aims to ensure that staff return in-course assessments to students promptly.

Fees and Scholarships

Going to university is a life-changing step and it's important to understand the costs involved and the funding options available before you start. A full breakdown of the fees associated with this programme can be found on our course fees pages.

Course Fees

For eligible undergraduate students going to university for the first time, scholarships and bursaries are available to help cover costs. The University of Lincoln offers a variety of merit-based and subject-specific bursaries and scholarships. For full details and information about eligibility, visit our scholarships and bursaries pages.

Going to university is a life-changing step and it's important to understand the costs involved and the funding options available before you start. A full breakdown of the fees associated with this programme can be found on our course fees pages.

Course Fees

For eligible undergraduate students going to university for the first time, scholarships and bursaries are available to help cover costs. The University of Lincoln offers a variety of merit-based and subject-specific bursaries and scholarships. For full details and information about eligibility, visit our scholarships and bursaries pages.

Entry Requirements 2020-21

United Kingdom

GCE Advanced Levels: BBC, to include a grade B from A Level Chemistry.

International Baccalaureate: 29 points overall, with Higher Level Grade 5 in Chemistry.

BTEC Extended Diploma in Applied Science*: Distinction, Merit, Merit

*not all modules are accepted. Please contact our Admissions team for further information (admissions@lincoln.ac.uk)

Access to Higher Education Diploma: 45 Level 3 credits with a minimum of 112 UCAS Tariff points, including 40 points from 15 credits in Chemistry

Applicants will also need at least three GCSEs at grade 4 (C) or above, which must include English, Maths and Science. Equivalent Level 2 qualifications may also be considered.

International

Non UK Qualifications:

If you have studied outside of the UK, and are unsure whether your qualification meets the above requirements, please visit our country pages https://www.lincoln.ac.uk/home/studywithus/internationalstudents/entryrequirementsandyourcountry/ for information on equivalent qualifications.

EU and Overseas students will be required to demonstrate English language proficiency equivalent to IELTS 6.0 overall, with a minimum of 5.5 in each element. For information regarding other English language qualifications we accept, please visit the English Requirements page https://www.lincoln.ac.uk/home/studywithus/internationalstudents/englishlanguagerequirementsandsupport/englishlanguagerequirements/

If you do not meet the above IELTS requirements, you may be able to take part in one of our Pre-sessional English and Academic Study Skills courses.

For applicants who do not meet our standard entry requirements, our Science Foundation Year can provide an alternative route of entry onto our full degree programmes:
https://www.lincoln.ac.uk/home/course/sfysfyub/

If you would like further information about entry requirements, or would like to discuss whether the qualifications you are currently studying are acceptable, please contact the Admissions team on 01522 886097, or email admissions@lincoln.ac.uk

Entry Requirements 2021-22

United Kingdom

GCE Advanced Levels: BBC, to include a grade B from A Level Chemistry.

International Baccalaureate: 29 points overall, with Higher Level Grade 5 in Chemistry.

BTEC Extended Diploma in Applied Science*: Distinction, Merit, Merit

*not all modules are accepted. Please contact our Admissions team for further information (admissions@lincoln.ac.uk)

Access to Higher Education Diploma: 45 Level 3 credits with a minimum of 112 UCAS Tariff points, including 40 points from 15 credits in Chemistry

Applicants will also need at least three GCSEs at grade 4 (C) or above, which must include English, Maths and Science. Equivalent Level 2 qualifications may also be considered.

International

Non UK Qualifications:

If you have studied outside of the UK, and are unsure whether your qualification meets the above requirements, please visit our country pages for information on equivalent qualifications.

https://www.lincoln.ac.uk/home/studywithus/internationalstudents/entryrequirementsandyourcountry/

EU and Overseas students will be required to demonstrate English language proficiency equivalent to IELTS 6.0 overall, with a minimum of 5.5 in each element. For information regarding other English language qualifications we accept, please visit the English Requirements page.

https://www.lincoln.ac.uk/home/studywithus/internationalstudents/englishlanguagerequirementsandsupport/englishlanguagerequirements/

If you do not meet the above IELTS requirements, you may be able to take part in one of our Pre-sessional English and Academic Study Skills courses.

For applicants who do not meet our standard entry requirements, our Science Foundation Year can provide an alternative route of entry onto our full degree programmes:

https://www.lincoln.ac.uk/home/course/sfysfyub/

If you would like further information about entry requirements, or would like to discuss whether the qualifications you are currently studying are acceptable, please contact the Admissions team on 01522 886097, or email admissions@lincoln.ac.uk

Teaching and Learning During Covid-19

At Lincoln, Covid-19 has encouraged us to review our practices and, as a result, to take the opportunity to find new ways to enhance the student experience. We have made changes to our teaching and learning approach and to our campus, to ensure that students and staff can enjoy a safe and positive learning experience. We will continue to follow Government guidance and work closely with the local Public Health experts as the situation progresses, and adapt our teaching and learning accordingly to keep our campus as safe as possible.

Features

Skills Development and Professional Practice

Our Chemistry courses have an embedded explicit skills development programme through the professional practice modules. The programme delivers a systematic programme in skills development, which includes CV writing and interview skills. The modules exemplify the application of chemistry into key employment sectors and present chemistry through an integrated approach.

Industry Challenges

A series of themed industry challenges are co-delivered during the professional practice modules through industry partnerships with multi-national and SME organisations representing the analytical, formulation, pharmaceutical, and energy and environmental sectors.

After systematic project planning and management training, students can devise and present technical proposals in response to the challenge. After consultation and feedback from a joint academic and industry panel, students can execute project plans and report within industry standard methods. The professional practice modules aim to prepare students for placements and future employment.

Placements

Students may have the opportunity to undertake placements. When students are on an optional placement in the UK or overseas or studying abroad, they will be required to cover their own transport and accommodation and meals costs.

Placements can range from a few weeks to a full year if students choose to undertake an optional sandwich year in industry (where available). Students are encouraged to obtain placements in industry independently. Tutors may provide support and advice to students who require it during this process.

Career Opportunities

Students who apply to take the PGCE as chemistry teachers can receive bursaries from the government, subject to meeting qualifying criteria. Chemistry graduates may also pursue a wide range of science-related careers in sectors including energy, petrochemicals, pharmaceuticals, and consumer and personal care products.

Virtual Open Days

While you may not be able to visit us in person at the moment, you can still find out more about the University of Lincoln and what it is like to live and study here at one of our live Virtual Open Days.

Book Your Place

Related Courses

The University intends to provide its courses as outlined in these pages, although the University may make changes in accordance with the Student Admissions Terms and Conditions.
-->