IB Group 4 subjects

Structure and assessment

All group 4 subjects (except computer science and environmental systems and societies; see below) follow roughly the same format. Each subject has its Subject Specific Core (SSC), i.e., material taught at both the standard and higher levels. Students sitting the Higher Level examination study the Additional Higher Level (AHL) material. Lastly, there is a list of options for each subject from which two are chosen. Higher Level students are sometimes unable to choose certain options that are available to Standard Level students because the AHL already covers it. Ideally, students choose the options based on their own abilities and preferences, but in practice the options are usually chosen by the school (based on the school's scientific facilities as well as the discretion of the instructor). Students spend one-quarter of the 150 hours of SL instruction (240 hours for HL; however, both numbers are merely recommendations and are not enforced) doing practical work in the laboratory. Group 4 subjects at the Standard Level are tailored for students who do not see themselves in further science instruction after leaving the programme.

Assessment of a Group 4 subject comprises the following:

Internal assessment of the practical work (24%)

Paper 1 – multiple choice questions on the SSC (20%)

Paper 2 – free response questions on the SSC (32% at SL, 36% at HL)

Paper 3 – free response questions on the options (24% at SL, 20% at HL)

At the Standard Level, the examinations are respectively 45 minutes, 1 hour and 15 minutes, and 1 hour long. At the Higher Level, they are 1 hour, 2 hours and 15 minutes, and 1 hour and 15 minutes long. Calculators are not permitted for Paper 1, but they (as well as a provided formula booklet and periodic table) are permitted for papers 2 and 3.

Standard level

80 hours of instruction on 8 topics

Physics and physical measurement

Mechanics

Thermal physics

Oscillations and waves

Electric currents

Fields and forces

Atomic and nuclear physics

Energy, power and climate change

with 30 hours of instruction on two optional subjects:

Sight and wave phenomena

Quantum physics and nuclear physics

Digital technology

Relativity and particle physics

Astrophysics

Communications

Electromagnetic Waves

and 40 hours of practical work.

Higher level

80 hours on Physics SL core subjects, with 55 hours on 6 additional topics:

Motion in fields

Thermal physics

Wave phenomena

Electromagnetic induction

Quantum physics and nuclear physics

Digital technology

and 45 hours of instruction on two optional subjects:

Astrophysics

Communications

Electromagnetic Waves

Relativity

Medical Physics

Particle Physics

and 60 hours of practical work.

SL/HL core

Topic 1: Measurements and uncertainties (5 hours)

Topic 2: Mechanics (22 hours)

Topic 3: Thermal physics (11 hours)

Topic 4: Waves (15 hours)

Topic 5: Electricity and magnetism (15 hours)

Topic 6: Circular motion and gravitation (5 hours)

Topic 7: Atomic, nuclear and particle physics (14 hours)

Topic 8: Energy production (8 hours)

HL extension

Topic 9: Wave phenomena (17 hours)

Topic 10: Fields (11 hours)

Topic 11: Electromagnetic induction (16 hours)

Topic 12: Quantum and nuclear physics (16 hours)

Options

Option A: Relativity (15/25 hours)

Option B: Engineering physics (15/25 hours)

Option C: Imaging (15/25 hours)

Option D: Astrophysics (15/25 hours)

Standard level

80 hours of instruction on the topics:

Quantitative Chemistry

Atomic structure

Periodicity

Bonding

Energetics

Kinetics

Equilibrium

Acids and Bases

Oxidation and reduction

Organic chemistry

Measurement and data processing

and 30 hours on two options from the topics:

Modern analytical chemistry

Human Biochemistry

Chemistry in industry and technology

Medicines and drugs

Environmental Chemistry

Food chemistry

Further Organic Chemistry

together with 40 hours of practical work.

Higher level

80 hours on the core subjects of the Standard level course with 55 hours of instruction on these topics:

Atomic structure

Periodicity

Bonding

Energetics

Kinetics

Equilibrium

Acids and Bases

Oxidation and reduction

Organic chemistry

and 45 hours on two of the options in the standard course, and 60 hours of practical work.

SL/HL core and HL extension

Topic 1: Stoichiometric relationships (13.5 hours)

Topic 2 + 12: Atomic structure (6/8 hours)

Topic 3 + 13: Periodicity (6/10 hours)

Topic 4 + 14: Chemical bonding and structure (13.5/20.5 hours)

Topic 5 + 15: Energetics/thermochemistry (9/16 hours)

Topic 6 + 16: Chemical kinetics (7/13 hours)

Topic 7 + 17: Equilibrium (4.5/8.5 hours)

Topic 8 + 18: Acids and bases (6.5/16.5 hours)

Topic 9 + 19: Redox processes (8/14 hours)

Topic 10 + 20: Organic chemistry (11/23 hours)

Topic 11 + 21: Measurement and data processing (10/12 hours)

Options

Option A: Materials (15/25 hours)

Option B: Biochemistry (15/25 hours)

Option C: Energy (15/25 hours)

Option D: Medicinal chemistry (15/25 hours)

Biology (2009–2015)

Biology is the science of life and living organisms. Aside from instruction relevant to this, students are given the chance to learn complex laboratory techniques (e.g., DNA extraction) as well as develop mindful opinions about controversial topics in biology (e.g., stem-cell research and genetic modification). The syllabus lists thirteen topics, to be covered in an order varying from school to school:

Standard level

80 hours of instruction on 6 topics

Statistical Analysis

Cells

Chemistry of Life

Genetics

Ecology and evolution

Health and human physiology

with 30 hours of instruction on two options from:

Human nutrition and health

Physiology of exercise

Cells and energy

Evolution

Neurobiology and behavior

Microbes and Biotechnology

Ecology and conservation

Higher level

80 hours of instruction on 6 topics in the standard course and 55 hours on a further 5 topics:

Nucleic acids and proteins

Cellular respiration and photosynthesis

Plant Science

Genetics

Human health and physiology

with 45 hours of instruction on addition topics in the SL course plus:

Further human physiology

SL/HL core

Topic 1: Cell biology (15 hours)

Topic 2: Molecular biology (21 hours)

Topic 3: Genetics (15 hours)

Topic 4: Ecology (12 hours)

Topic 5: Evolution and biodiversity (12 hours)

Topic 6: Human physiology (20 hours)

HL extension

Topic 7: Nucleic acids (9 hours)

Topic 8: Metabolism, cell respiration and photosynthesis (14 hours)

Topic 9: Plant biology (13 hours)

Topic 10: Genetics and evolution (8 hours)

Topic 11: Animal physiology (16 hours)

Options

Option A: Neurology and behaviour (15/25 hours)

Option B: Biotechnology and bioinformatics (15/25 hours)

Option C: Ecology and conservation (15/25 hours)

Option D: Human physiology (15/25 hours)

Design technology (2009–2015)

Topics addressed in this course include:

Design process

Product innovation

Green design

Materials

Product development

Product design

Evaluation

with additional topics in the higher level:

Energy

Structures

Mechanical design

Advanced manufacturing techniques

Sustainable development.

SL/HL core

Topic 1: Human factors and ergonomics (12 hours)

Topic 2: Resource management and sustainable production (22 hours)

Topic 3: Modelling (12 hours)

Topic 4: Raw material to final product (23 hours)

Topic 5: Innovation and design (13 hours)

Topic 6: Classic design (8 hours)

HL extension

Topic 7: User-centred design (UCD) (12 hours)

Topic 8: Sustainability (14 hours)

Topic 9: Innovation and markets (13 hours)

Topic 10: Commercial production (15 hours)

Core

All candidates study the 6 core topics (80 hours):

Topic 1: Anatomy (7 hours)

Topic 2: Exercise physiology (17 hours)

Topic 3: Energy systems (13 hours)

Topic 4: Movement analysis (15 hours)

Topic 5: Skill in sport (15 hours)

Topic 6: Measurement and evaluation of human performance (13 hours)

Options

In addition, they also study two of the following four options (30 hours):

Option A: Optimizing physiological performance (15 hours)

Option B: Psychology of sport (15 hours)

Option C: Physical activity and health (15 hours)

Option D: Nutrition for sport, exercise and health (15 hours)

Topics

All topics are compulsory (i.e. there are no options).

Topic 1: Systems and models (5 hours)

Topic 2: The ecosystem (31 hours)

Topic 3: Human population, carrying capacity and resource use (39 hours)

Topic 4: Conservation and biodiversity (15 hours)

Topic 5: Pollution management (18 hours)

Topic 6: The issue of global warming (6 hours)

Topic 7: Environmental value systems (6 hours)

The remaining 30 hours are derived from the internal assessment (practical work), making a total of 150 teaching hours.

Assessment

There are two external assessment components and one internal assessment component.

External assessment

Calculators are required for both papers.

Paper 1 (45 raw marks contributing 30% of the course, 1 hour) consists of short-answer and data-based questions.

Paper 2 (65 raw marks contributing 50% of the course, 2 hours) consists of:

Section A: Candidates are required to analyse and make reasoned and balanced judgements relating to a range of data on a specific unseen case study.

Section B: Candidates are required to answer two structured essay questions from a choice of four.

Internal assessment

Candidates will need to complete 30 hours of practical work throughout the course. Each of the three criteria - planning (Pl), data collection and processing (DCP) and discussion, evaluation and conclusion (DEC) - are assessed twice, while the fourth criterion - personal skills (PS) - is assessed summatively throughout the course. The maximum raw mark is 42, which contributes 20% of the course.

Computer science (2014–2020)

The computer science course was recently updated and moved from Group 5 (as an elective course) to Group 4, becoming a full course, from first examinations in 2014. The structure and assessment of the course has changed to greater emphasize problem solving rather than Java program construction. The curriculum model for the course still differs from other Group 4 subjects however.

Topics

Standard Level candidates study the SL/HL core (80 hours) and the core of one option (30 hours), while Higher Level candidates study the SL/HL core (80 hours), HL extension (45 hours), an annually-issued case study (30 hours) and the whole of one option (30 + 15 hours). The remaining 40 hours for both Standard and Higher Level comes from the internal assessment component, for a total of 150 teaching hours at SL and 240 hours at HL.

SL/HL core

Topic 1: System fundamentals (20 hours)

Topic 2: Computer organization (6 hours)

Topic 3: Networks (9 hours)

Topic 4: Computational thinking, problem-solving and programming (45 hours)

HL extension

Topic 5: Abstract data structures (23 hours)

Topic 6: Resource management (8 hours)

Topic 7: Control (14 hours)

Options

Option A: Databases (30/45 hours)

Option B: Modelling and simulation (30/45 hours)

Option C: Web science (30/45 hours)

Option D: Object-oriented programming (30/45 hours)

Assessment

There are three external assessment components and two internal assessment components.

External assessment

Unlike other Group 4 subjects, calculators are not permitted in any computer science examination.

Paper 1 (SL: 70 raw marks contributing 45% of the course, 1 hour 30 minutes; HL: 100 raw marks contributing 40% of the course, 2 hours 10 minutes) consists of:

Section A (about 30 minutes): Compulsory short answer questions on the SL/HL core and (for HL) the HL extension. Some questions are common to HL and SL. The maximum raw mark for this section is 25.

Section B (60 minutes for SL, 100 minutes for HL): 3 (SL) or 5 (HL) compulsory structured questions on the SL/HL core and the HL extension. Some questions may be common to HL and SL. The maximum raw marks for this section is 45 (SL) or 75 (HL).

Paper 2 (SL: 45 raw marks contributing 25% of the course, 1 hour; HL: 65 raw marks contributing 20% of the course, 1 hour 20 minutes) consists of 2 to 5 (SL) or 3 to 7 (HL) compulsory questions based on the option studied. For HL, questions in section A (45 marks) consists of the core of the option, which may be common to the SL paper, and questions in section B (20 marks) are based on the extension of the option.

Paper 3 (HL only: 30 raw marks contributing 20% of the course, 1 hour) consists of 4 compulsory questions based on the pre-seen case study annually issued by the IBO.

Internal assessment

Both SL and HL candidates must complete the following:

A computational solution (30 hours, 34 raw marks). Candidates will need to develop a solution for a client to a problem or an unanswered question. This can be in the form of an entirely new system, or an addition of functionality to an existing system. Candidates will need to select, identify and work closely with an adviser, a third-party that can assist the candidate throughout the creation of the product. Candidates will need to complete an electronic HTML cover sheet (not assessed), the product and the documentation of the product (maximum 2000 words in total), including a 2 to 7-minute video showing the functionality of the product. The entire solution and documentation is marked against 5 criteria and is digitally compressed in a ZIP file and submitted for moderation.

The group 4 project (10 hours, 6 raw marks). Candidates will need to complete an interdisciplinary project with other science students. This is marked against the personal skills criterion.

Both components carry a weightage of 30% (SL) or 20% (HL) of the computer science course.

Group 4 project

All students of the Diploma Programme in any of these subjects, with the exception of environmental systems and societies, will compulsorily complete an inter-disciplinary and collaborative investigation called the Group 4 project. The Group 4 project assessment is included in the internal assessment marks. Students undertaking two or more group 4 courses will obtain the same mark for all of the courses.