diploma programme model nature of science the nature of science (nos) is an overarching theme in the...
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IB DP Biology - HL
Diploma Programme model
Nature of scienceThe Nature of science
(NOS) is an overarching theme in the biology, chemistry and physics courses
The “Nature of science” section of the Biology guide provides a comprehensive account of the nature of science in the 21st century
Read Biology guide pp 6 - 12
How science works
Nature of biologyBiology is the study of lifeThe first organisms appeared
on the planet over 3 billion years ago and, through reproduction and natural selection, have given rise to the 8 million or so different species alive today
This diversity makes biology both an endless source of fascination and a considerable challenge
An interest in life is natural for humans; not only are we living organisms ourselves, but we depend on many species for our survival, are threatened by some and co-exist with many more
The word “biology” was coined by German naturalist Gottfried Reinhold in 1802 but our understanding of living organisms only started to grow rapidly with the advent of techniques and technologies developed in the 18th and 19th centuries, not least the invention of the microscope and the realization that natural selection is the process that has driven the evolution of life
Biologists attempt to understand the living world at all levels using many different approaches and techniques
Aims Through studying biology, you should become aware of how scientists work
and communicate with each other emphasis on a practical approach through experimental work characterizes
natural sciences The aims enables you, through the overarching theme of the Nature of
science, to: 1. appreciate scientific study and creativity within a global context
through stimulating and challenging opportunities 2. acquire a body of knowledge, methods and techniques that characterize
science and technology 3. apply and use a body of knowledge, methods and techniques that
characterize science and technology 4. develop an ability to analyse, evaluate and synthesize scientific
information 5. develop a critical awareness of the need for, and the value of, effective
collaboration and communication during scientific activities 6. develop experimental and investigative scientific skills including the
use of current technologies 7. develop and apply 21st century communication skills in the study of
science 8. become critically aware, as global citizens, of the ethical implications of
using science and technology 9. develop an appreciation of the possibilities and limitations of science
and technology 10. develop an understanding of the relationships between scientific
disciplines and their influence on other areas of knowledge.
Assessment objectives The assessment objectives for biology reflect those parts of the aims that
will be formally assessed either internally or externally. These assessments will centre upon the nature of science. It is the intention of biology course that you are able to fullfill the following
assessment objectives: 1. Demonstrate knowledge and understanding of:
a. facts, concepts and terminology b. methodologies and techniques c. communicating scientific information.
2. Apply: a. facts, concepts and terminology b. methodologies and techniques c. methods of communicating scientific information.
3. Formulate, analyse and evaluate: a. hypotheses, research questions and predictions b. methodologies and techniques c. primary and secondary data d. scientific explanations.
4. Demonstrate the appropriate research, experimental, and personal skills necessary to carry out insightful and ethical investigations.
Mathematical requirementsAll Diploma Programme biology students should be able to:
• perform the basic arithmetic functions: addition, subtraction, multiplication and division
• carry out calculations involving means, decimals, fractions, percentages and ratios
• represent and interpret frequency data in the form of bar charts, graphs and histograms, including direct and inverse proportion
• plot graphs (with suitable scales and axes) involving two variables that show linear or non-linear relationships
• plot and interpret scattergraphs to identify a correlation between two variables, and appreciate that the existence of a correlation does not establish a causal relationship
• determine the mode and median of a set of data, calculate and analyse standard deviation
• select statistical tests appropriate for the analysis of particular data and interpret the results.
Syllabus outline
Assessment outline—HL
External assessment details—HL
Internal assessment (IA)Internal assessment is an
integral part of the course and is compulsory
It enables you to demonstrate the application of your skills and knowledge, and to pursue their personal interests, without the time limitations and other constraints that are associated with written examinations
Internal assessment is an integral part of the biology course, contributing 20% to the final assessment in the Biology HL course
Approximately 10 hours of teaching time will be allocated to IA
IA consists of one scientific investigation - the individual investigation, which should cover a topic that is commensurate with the level of the course of study
Your work will internally assessed by the teacher and externally moderated by the IB.
IA is marked against an assessment criteria, with a total mark out of 24
Some of the possible tasks include:• a hands-on laboratory
investigation• using a spreadsheet for
analysis and modelling• extracting data from a
database and analysing it graphically
• producing a hybrid of spreadsheet/database work with a traditional hands-on investigation
• using a simulation provided it is interactive and open-ended.
Some tasks may consist of relevant and appropriate qualitative work combined with quantitative work.
Internal assessment componentDuration: 10 hoursWeighting: 20%• Individual
investigation.• This investigation
covers assessment objectives 1, 2, 3 and 4.
Internal assessment criteriaThe assessment model uses five criteria to
assess the final report of the individual investigation with the following raw marks and weightings assigned:
Practical workHL Biology requires you to
carry out practical activities for 40 hours throughout the course
The range of practical work carried out should reflect the breadth and depth of the subject syllabus at each level, but it is not necessary to carry out an investigation for every syllabus topic.
However, all students must participate in the group 4 project and the IA investigation
Although the requirements for IA are centred on the investigation, the different types of practical activities that a student may engage in serve other purposes, including:• illustrating, teaching and
reinforcing theoretical concepts
• developing an appreciation of the essential hands-on nature of much scientific work
• developing an appreciation of scientists’ use of secondary data from databases
• developing an appreciation of scientists’ use of modelling
• developing an appreciation of the benefits and limitations of scientific methodology.
The group 4 projectThe group 4 project is an
interdisciplinary activity in which all Diploma Programme science students must participate.
The intention is that students from the different group 4 subjects analyse a common topic or problem.
The exercise should be a collaborative experience where the emphasis is on the processes involved in, rather than the products of, such an activity.
The group 4 project is a collaborative activity where students from different group 4 subjects work together on a scientific or technological topic, allowing for concepts and perceptions from across the disciplines to be shared in line with aim 10—that is, to “develop an understanding of the relationships between scientific disciplines and their influence on other areas of knowledge”.
The project can be practically or theoretically based.
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