BSc (Honours) in Natural Sciences
Online United Kingdom
DURATION
3 up to 6 Years
LANGUAGES
English
PACE
Full time, Part time
APPLICATION DEADLINE
05 Sep 2024
EARLIEST START DATE
Oct 2024
TUITION FEES
GBP 21,816 *
STUDY FORMAT
Distance Learning
* total cost; part-time at a rate of 60 credits is £3,636 per year
Introduction
Study a specific science or pick and choose from different scientific disciplines. Many challenges facing society today involve an interdisciplinary approach; this degree lets you explore a range of sciences. Start with a wide-ranging introduction to topical areas of modern science, giving you a good grounding in each branch.
Then, continue with a broad-based approach or focus on a single area of science. Our OpenSTEM Labs allow you to do practical work online. At the same time, some modules offer optional hands-on laboratory work and fieldwork.
Key features
- Accredited by the Society for Natural Sciences (SNS)
- Study an interdisciplinary, broad-based route and pick modules across the science curriculum
- Or pick a specialist route and focus on one of six branches of science
- Develop investigative and laboratory skills using our state-of-the-art multi-award-winning OpenSTEM Labs
- Practice hands-on laboratory work and fieldwork (with online options)
Accessibility
We make all our qualifications as accessible as possible and have a comprehensive range of services to support all our students. The BSc (Honours) Natural Sciences uses a variety of study materials and has the following elements:
- Studying a mixture of printed and online material – online learning resources may include websites, audio/video media clips, and interactive activities such as online quizzes
- Using mathematical and scientific expressions, notations and associated techniques
- Undertaking practical work or using an online laboratory
- Working with specialist reading material such as scientific journals
- Using specialist software
- Working in a group with other students
- Using and/or producing diagrams and/or screenshots
- Finding external/third-party material online.
Accreditation
All routes to the BSc (Hons) Natural Sciences
The Society of Natural Sciences accredits all routes. Biology route to the BSc (Hons) Natural Sciences only
Our Biology route has interim* accreditation from the Royal Society of Biology.
Degree accreditation by the Royal Society of Biology acknowledges academic excellence in the biosciences and highlights degrees that educate the research and development leaders and innovators of the future.
*The accreditation criteria require evidence that graduates have met defined learning outcomes, including gaining substantial research experience. Following a successful demonstration to the Society that these graduate attributes have been attained, and graduation of the first cohort of students from the programme, the programme may be awarded full accreditation.
Physics route to the BSc (Hons) Natural Sciences only
The Institute of Physics recognises our physics route.
How long it takes
- Part-time study - 6 years
- Full-time study - 3 years
- Time limit - 16 years
Program Outcome
The degree provides opportunities for you to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas:
Knowledge and understanding
When you have completed this degree you will have systematic knowledge and a critical understanding of:
- The fundamental facts, concepts, principles, theories, classification systems and terminology used in the main branches of science
- Appropriate methods of acquiring, interpreting and analysing scientific data and information
- Accuracy, precision, uncertainty, ambiguity in the context of science; the limits of current scientific knowledge; and the role of science in the world around us
- A selected area of science, at or informed by research and/or literature at the forefront of the discipline.
Cognitive skills
When you have completed this degree you will be able to:
- Use and correctly apply knowledge and understanding of scientific facts, concepts, principles and theories in familiar and unfamiliar contexts
- Describe, critically analyse and interpret scientific information and data presented in a variety of ways, including texts, tables, graphs, diagrams and figures, numerical and mathematical descriptions and computer-based media
- Critically evaluate particular aspects of current scientific research.
Practical and professional skills
When you have completed this degree you will be able to:
- Conduct practical investigations in a responsible, safe and ethical manner taking proper account of risk assessment and health and safety regulations
- Obtain, record, collate and analyse data derived from practical investigations, and interpret and report their significance in the light of underlying theory, practical issues and relevant information from other sources
- Initiate, design, conduct and report on investigations that may involve the acquisition of primary or secondary data
- Plan your learning and be adept at time management and organisation so that you can work independently or with others in ways appropriate for continuing personal and professional development.
Key skills
When you have completed this degree you will be able to:
- Locate scientific information from a variety of sources (e.g. textual, numerical, graphical, computer-based), including reviews and primary sources, and use it to address scientific problems
- Prepare, process, interpret and present data using appropriate qualitative and quantitative techniques, including the use of statistics
- Communicate scientific information accurately and effectively using written, visual and numerical forms in a style that suits the purpose and audience
- Use mathematical skills appropriate to the level and context
- Use ICT to enhance your learning, for data analysis and for communicating scientific information to others
- Work effectively with others to explore aspects of science.
Curriculum
This degree has three stages, each comprising 120 credits.
- In Stage 1, you’ll study one 60-credit introductory science module and 60 credits from your chosen route.
- In Stage 2, you’ll study 120 credits from your chosen route.
- In Stage 3, you’ll study 90 credits and complete a 30-credit project module from your chosen route.
Stage 1 (120 credits)
You’ll study one 60-credit introductory science module and 60 credits from your chosen route:
- Broad-based route
- Biology
- Chemistry
- Earth Sciences
- Environmental Science
- Astronomy and planetary science
- Physics
Introductory science module
You'll study the following:
- Questions in science (S111)
Broad-based, Biology, Chemistry, Earth sciences or Environmental science route
You'll study the following:
- Science: concepts and practice (S112)
Astronomy and planetary science or Physics route
You'll study the following:
- Essential Mathematics 1 (MST124)
You'll choose one from:
- Essential Mathematics 2 (MST125)
- Introducing statistics (M140)
- Physics and space (SM123)
- Technologies in practice (TM129)
Stage 2 (120 credits)
Broad-based route
You'll choose 60 credits from:
- Concepts in chemistry (S218)
- Earth science (S209)
- Environmental science (S206)
- Cell and molecular biology (S296)
- The biology of survival (S295)
You'll choose 60 credits from:
- Stage 2 option modules
Biology
You'll study both of the following:
- Cell and molecular biology (S296)
- The biology of survival (S295)
You'll choose 60 credits from:
- Stage 2 option modules
Chemistry
You'll study the following:
- Concepts in chemistry (S218)
You'll choose 60 credits from:
- Stage 2 option modules
Earth sciences
You'll study the following:
- Earth science (S209)
You’ll choose 60 credits from:
- Stage 2 option modules
Environmental science
You'll study the following:
- Environmental science (S206)
You’ll choose 60 credits from:
- Stage 2 option modules
Physics
You'll study all three of the following:
- Physics: from classical to quantum (S217)
- Mathematical methods (MST224)
- Remote experiments in physics and space (SXPS288)
Astronomy and planetary science
You'll study all four of the following:
- Astronomy (S284)
- Mathematical methods (MST224)
- Planetary science and the search for life (S283)
- Remote experiments in physics and space (SXPS288)
Stage 3 (120 credits)
Broad-based route
You'll choose 60 credits from:
- Biological science: from genes to species (S317)
- Chemistry: further concepts and applications (S315)
- Earth processes (S309)
- Environment: responding to change (SDT306)
- Astrophysics of stars and exoplanets (S384)
- Cosmology and the distant Universe (S385)
- Electromagnetism (SM381)
- Infectious disease and public health (SK320)
- Quantum physics: fundamentals and applications (SM380)
- Signals and perception: the science of the senses (SD329)
- Terrestrial ecosystems (S397)
You'll choose a 30-credit module from above or from:
- Deterministic and stochastic dynamics (MS327)
- Evaluating contemporary science (S350)
- Geology and sustainability (S319)
- Mathematical methods and fluid mechanics (MST326)
- Nanoscale engineering (T366)
- Renewable energy (T313)
You'll complete one from:
- Science project module: biology (SXB390)
- Science project module: chemistry (SXC390)
- Science project course: environmental science practical project (SXE390)
- Science project course: geosciences (SXG390)
- Science project module: health sciences (SXH390)
- Science project course: radiation and matter (SXP390)
Biology
You'll study the following:
- Biological science: from genes to species (S317)
You'll choose one from:
- Evaluating contemporary science (S350)
- Infectious disease and public health (SK320)
- Terrestrial ecosystems (S397)
- Signals and perception: the science of the senses (SD329)
You'll complete the following:
- Science project module: biology (SXB390)
Chemistry
You'll study the following:
- Chemistry: further concepts and applications (S315)
You'll choose one from:
- Evaluating contemporary science (S350)
- Nanoscale engineering (T366)
- Infectious disease and public health (SK320)
- Renewable energy (T313)
- Signals and perception: the science of the senses (SD329)
- Terrestrial ecosystems (S397)
You'll complete the following:
- Science project module: chemistry (SXC390)
Earth sciences
You'll study the following:
- Earth processes (S309)
You'll choose one from:
- Evaluating contemporary science (S350)
- Terrestrial ecosystems (S397)
You'll complete the following:
- Science project course: geosciences (SXG390)
Environmental science
You'll study the following:
- Environment: responding to change (SDT306)
You'll choose one from:
- Evaluating contemporary science (S350)
- Geology and sustainability (S319)
- Terrestrial ecosystems (S397)
You'll complete the following:
- Science project course: environmental science practical project (SXE390)
Physics
You'll study the following:
- Electromagnetism (SM381)
- Quantum physics: fundamentals and applications (SM380)
You'll choose one from:
- Astrophysics of stars and exoplanets (S384)
- Computational Applied Mathematics (MST374)
- Cosmology and the distant Universe (S385)
- Deterministic and stochastic dynamics (MS327)
- Mathematical methods and fluid mechanics (MST326)
You'll complete the following:
- Science project course: radiation and matter (SXP390)
Astronomy and planetary science
You'll study the following:
- Astrophysics of stars and exoplanets (S384)
- Cosmology and the distant Universe (S385)
You'll choose one from:
- Computational Applied Mathematics (MST374)
- Deterministic and stochastic dynamics (MS327)
- Electromagnetism (SM381)
- Evaluating contemporary science (S350)
- Mathematical methods and fluid mechanics (MST326)
- Quantum physics: fundamentals and applications (SM380)
You'll complete the following:
- Science project course: radiation and matter (SXP390)
Assessment
Our assessments are all designed to reinforce your learning and help you show your understanding of the topics. The mix of assessment methods will vary between modules.
Computer-Marked Assignments
- Usually, a series of online, multiple-choice questions.
Tutor-Marked Assignments
- You’ll have a number of these throughout each module, each with a submission deadline.
- They can be made up of essays, questions, experiments or something else to test your understanding of what you have learned.
- Your tutor will mark and return them to you with detailed feedback.
End-of-Module Assessments
- The final, marked piece of work on most modules.
- Modules with an end-of-module assessment won’t usually have an exam.
Exams
- Some modules end with an exam. You’ll be given time to revise and prepare.
- You’ll be given your exam date at least 5 months in advance.
- Most exams take place remotely, and you will complete them at home or an alternative location.
- If a module requires you to take a face-to-face exam, this will be made clear in the module description, and you will be required to take your exam in person at one of our exam centres.
Admissions
Program Tuition Fee
Career Opportunities
Skills for career development
By the time you achieve your qualification, you’ll be an adaptable graduate with a range of transferable skills that are highly valued in the labour market – such as analytical, numerical and communication skills, teamworking, problem-solving and proficiency in using computers. You’ll also have a good understanding of where your strengths and interests lie, and be well prepared for your next step – whether it’s further study or employment.
Employers also look for evidence of experience in the workplace to support the skills gained through the degree. To succeed, graduates will need to be flexible and multi-skilled, with the ability to work in a multidisciplinary environment.
Career relevance
Science graduates are well placed to enter both scientific and non-scientific jobs. The logical, reasoned approach needed for science study is relevant to a wide range of financial, business and public sector employment, so science graduates – particularly those who have good communication and interpersonal skills – are in demand.
Employers include central and local government, the NHS, the water industry, food and drink companies, media and communications, the horticultural industry, multinational oil companies, the pharmaceutical industry, conservation bodies and universities – in roles such as:
- research and investigation
- product design and development
- analysis and diagnostics
- science information management
- science communication
- scientific sales
- exploration and extraction of natural resources
- health and healthcare-related professions
- waste management, recycling and sustainability
- environmental management, protection and conservation
- teaching (science is a shortage subject at the secondary school level, so there may be incentives to train as a physics, chemistry or maths teacher).
Growth areas are predicted to be: environment, energy and sustainability; biotechnology and biomedical engineering; healthcare; telecommunications; pharmaceuticals; bioinformatics; and technology transfer (transfer of scientific expertise to commercial products).
Program delivery
With our unique approach to distance learning, you can study from home, work or on the move.
You’ll have some assessment deadlines to meet, but otherwise, you’ll be free to study at the times that suit you, fitting your learning around work, family, and social life.
For each of your modules, you’ll use either just online resources or a mix of online and printed materials.
Each module you study will have a module website with
- A week-by-week study planner, giving you a step-by-step guide through your studies
- Course materials such as reading, videos, recordings, and self-assessed activities
- Module forums for discussions and collaborative activities with other students
- Details of each assignment and their due dates
- A tutorial booking system, online tutorial rooms, and your tutor’s contact details
- Online versions of some printed module materials and resources.