Science

Subject Lead – Miss A Ogden

At St Joseph’s, we believe that a high-quality science education provides the foundations for understanding the world through the specific disciplines of Biology, Chemistry and Physics. Science has changed our lives and is vital to the world’s future prosperity, and all pupils should be taught essential aspects of the knowledge, methods, processes and uses of science. Through building up a body of key foundational knowledge, vocabulary and concepts, pupils are encouraged to recognise the power of rational explanation and develop a sense of excitement and curiosity about natural phenomena. They are encouraged to understand how science can be used to explain what is occurring, predict how things will behave, and analyse causes.

The aims of the Curriculum for Science are to:

  • develop scientific knowledge and conceptual understanding through the specific disciplines of biology, chemistry and physics
  • develop understanding of the nature, processes and methods of science through different types of science enquiries that help them to answer scientific questions about the world around them
  • are equipped with the scientific knowledge required to understand the uses and implications of science, today and for the future.

Working Scientifically:

Key Stage One

During years 1 and 2, pupils should be taught to use the following practical scientific methods, processes and skills:

  • asking simple questions and recognising that they can be answered in different ways
  • observing closely, using simple equipment
  • performing simple tests
  • identifying and classifying
  • using their observations and ideas to suggest answers to questions
  • gathering and recording data to help in answering questions.

Lower Key Stage Two

During years 3 and 4, pupils should be taught to use the following practical scientific methods, processes and skills:

  • asking relevant questions and using different types of scientific enquiries to answer them
  • setting up simple practical enquiries, comparative and fair tests
  • making systematic and careful observations and, where appropriate, taking accurate measurements using standard units, using a range of equipment, including thermometers and data loggers
  • gathering, recording, classifying and presenting data in a variety of ways to help in answering questions
  • recording findings using simple scientific language, drawings, labelled diagrams, keys, bar charts, and tables
  • reporting on findings from enquiries, including oral and written explanations, displays or presentations of results and conclusions
  • using results to draw simple conclusions, make predictions for new values, suggest improvements and raise further questions
  • identifying differences, similarities or changes related to simple scientific ideas and processes
  • using straightforward scientific evidence to answer questions or to support their findings.

Upper Key Stage Two

During years 5 and 6, pupils should be taught to use the following practical scientific methods, processes and skills:

  • planning different types of scientific enquiries to answer questions, including recognising and controlling variables where necessary
  • taking measurements, using a range of scientific equipment, with increasing accuracy and precision, taking repeat readings when appropriate
  • recording data and results of increasing complexity using scientific diagrams and labels, classification keys, tables, scatter graphs, bar and line graphs
  • using test results to make predictions to set up further comparative and fair tests
  • reporting and presenting findings from enquiries, including conclusions, causal relationships and explanations of and a degree of trust in results, in oral and written forms such as displays and other presentations
  • identifying scientific evidence that has been used to support or refute ideas or arguments.

Our ambitious interpretation of the National Curriculum places knowledge, vocabulary, working and thinking scientifically at the heart of our principles, structure and practice.

Through studying science, pupils become more expert as they progress through the curriculum, accumulating, connecting and making sense of the rich substantive and disciplinary knowledge.

  1. Substantive knowledge– this is the subject knowledge and explicit vocabulary used to learn about the content. Common misconceptions are explicitly revealed as non-examples and positioned against known and accurate content. In science, an extensive and connected knowledge base is constructed so that pupils can use these foundations and integrate it with what they already know. Misconceptions are challenged carefully and in the context of the substantive and disciplinary knowledge.
  2. Disciplinary knowledge– this is knowing how to collect, use, interpret, understand and evaluate the evidence from scientific processes. This is taught. It is not assumed that pupils will acquire these skills by luck or hope. Pupils construct understanding by applying substantive knowledge to questioning and planning, observing, performing a range of tests, accurately measuring, comparing through identifying and classifying, using observations and gathering data to help answer questions, explaining and reporting, predicting, concluding, improving, and seeking patterns. We call it ‘Working Scientifically.’

Scientific analysis is developed through IPROF criteria. We call it ‘Thinking Scientifically.’

  • identifying and classifying
  • pattern seeking
  • research
  • observing over time
  • fair and comparative testing
  1. Substantive concepts include concrete examples, such as ‘plant’ or more abstract ideas, such as ‘biodiversity’. Concepts are taught through explicit vocabulary instruction as well as through the direct content and context of the study.

A guiding principle of Science is that each study draws upon prior learning. For example, in the EYFS, pupils may learn about The Natural World through daily activities and exploring their locality and immediate environment. This is revisited and positioned so that new and potentially abstract content in Year 1, such as Animals, including humans, is related to what children already know. This makes it easier to cognitively process. This helps to accelerate new learning as children integrate prior understanding.

In order to achieve the above, we follow a specific Curriculum for Science. Therefore our science curriculum pays close attention to guidance provided by the National Curriculum sequence and content. It is infused with evidence – led practice and enriched with retrieval studies to ensure long term retention of foundational knowledge.

Throughout studying  Science, our pupils become ‘a little bit more expert’ as they progress through the curriculum, accumulating, connecting and making sense of the rich substantive knowledge and disciplinary knowledge of the subject.

Specific and associated scientific vocabulary is planned sequentially and cumulatively from Year 1 to Year 6. High frequency, multiple meaning words (tier 2) are taught and help make sense of subject specific words (tier 3). Each learning module in science has a specific vocabulary module which aims to further broaden and deepen our pupils’ extensive vocabulary.

Click below to view our Long Term Overview for Science:

Science correct Long Term Overview 24