Curriculum

Science

Curriculum intent, implementation, and impact

About the subject

A high-quality science education provides the foundations for understanding the world through the specific disciplines of biology, chemistry and physics. The New Road Academy curriculum seeks to demonstrate how Science has changed our lives and is vital to the world’s future prosperity, and all students should be taught essential aspects of the knowledge, methods, processes and uses of science. Through building up a body of key foundational knowledge and concepts, students should be encouraged to recognise the power of rational explanation and develop a sense of excitement and curiosity about natural phenomena. They should be encouraged to understand how science can be used to explain what is occurring, predict how things will behave, and analyse causes.

 

The New Road Academy Science Curriculum aims to ensure that all students:

  • 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
  • Equip students with the scientific knowledge required to understand the uses and implications of science, today and for the future.

 

The programmes of study describe a sequence of knowledge and concepts. While it is important that students make progress, it is also vitally important that they develop secure understanding of each key block of knowledge and concepts in order to progress to the next stage.

Students should be able to describe associated processes and key characteristics in common language, but they should also be familiar with, and use, technical terminology accurately and precisely. They will build up an extended specialist vocabulary. They will also apply their mathematical knowledge to their understanding of science, including collecting, presenting and analysing data. The social and economic implications of science are important but, generally, they are taught most appropriately within the wider school curriculum however different contexts are incorporate within the curriculum so to maximise students’ engagement with, and motivation to study, science.

Our Science curriculum looks into the nature, processes and methods of science. To encourage understanding we use the “Working Scientifically” model which specifies the understanding of the nature, processes and methods of science for each year group. It is not be taught as a separate strand; although in terms of experimental design we do run an introduction to experimental design and equipment with new year 7 pupils. This model helps students focus on the key features of scientific enquiry, so that students learn to use a variety of approaches to answer relevant scientific questions. These types of scientific enquiry can include: observing over time; pattern seeking; identifying, classifying and grouping; comparative and fair testing (controlled investigations); and researching using secondary sources. Students are encouraged to  seek answers to questions through collecting, analysing and presenting data.

 

In terms of spoken language, oracy and terminology. The curriculum for science reflects the importance of spoken language in students’ development across the whole curriculum – cognitively, socially and linguistically. The quality and variety of language that students hear and speak are key factors in developing their scientific vocabulary and articulating scientific concepts clearly and precisely. They must be assisted in making their thinking clear, both to themselves and others, and teachers should ensure that pupils build secure foundations by using discussion to probe and remedy their misconceptions.

Skills such as Analysis and Evaluation are built into the content and will include: –

 

  • How to apply mathematical concepts and calculate results.
  • Presenting observations and data using appropriate methods, including tables and graphs.
  • Interpreting observations and data, including identifying patterns and using observations, measurements and data to draw conclusions.
  • Presenting reasoned explanations, including explaining data in relation to predictions and hypotheses.
  • Evaluating data, showing awareness of potential sources of random and systematic error
  • Identifying further questions arising from their results.
  • Understanding and using SI units and IUPAC (International Union of Pure and Applied Chemistry) chemical nomenclature.
  • Using and deriving simple equations and carry out appropriate calculations.
  • Data analysis including simple statistical techniques.

About the KS3 Curriculum intent, implementation, and impact

The Intent of the Science Curriculum in key stage 3 is to develop a deeper understanding of a range of scientific ideas in the subject disciplines of biology, chemistry and physics. Students will begin to see the connections between these subject areas and become aware of some of the big ideas underpinning scientific knowledge and understanding. Examples of these big ideas are the links between structure and function in living organisms, the particulate model as the key to understanding the properties and interactions of matter in all its forms, and the resources and means of transfer of energy as key determinants of all these interactions. They will be encouraged to relate scientific explanations to phenomena in the world around them and start to use modelling and abstract ideas to develop and evaluate explanations.

Students are required to understand that science is about working objectively, modifying explanations to take account of new evidence and ideas and subjecting results to peer review. Student development in knowledge acquisition will allow them to decide on the appropriate type of scientific enquiry to undertake to answer their own questions and develop a deeper understanding of factors to be taken into account when collecting, recording and processing data. This enables students to evaluate their results and identify further questions arising from them.

The delivery of the curriculum at Key Stage 3 will take shape of a modular approach which spans all three Sciences at a basic level. Each have an end of topic test (PATs). This is a skills based criteria which outlines a student’s position in their understanding when compared against a national average expectation. Although our intention is to follow a spiral curriculum which builds upon concepts taught previously to greater complexities, the KS3  curriculum also seeks to provide a wide breadth of study which includes topics which may not feature in students’ final GCSE specification. Furthermore Literacy tasks and opportunities to solve problems are taught towards the end of the year 7 preparing them for year 8 in terms of literacy and self expression.

 

Through the content across all three disciplines, in terms of Scientific attitudes students are required to: –

  • Pay attention to objectivity and concern for accuracy, precision, repeatability and reproducibility
  • Understand that scientific methods and theories develop as earlier explanations are modified to take account of new evidence and ideas, together with the importance of publishing results and peer review

 

Part of the Implementation of the curriculum covers experimental skills and investigations, and so opportunities to do this are also incorporated with in the content so that students are able to : –

  • Ask questions and develop a line of enquiry based on observations of the real world, alongside prior knowledge and experience
  • Make predictions using scientific knowledge and understanding
  • Select, plan and carry out the most appropriate types of scientific enquiries to test predictions, including identifying independent, dependent and control variables
  • Use appropriate techniques, apparatus, and materials during fieldwork and laboratory work, paying attention to health and safety
  • Make and record observations and measurements using a range of methods for different investigations; and evaluate the reliability of methods and suggest possible improvements apply sampling techniques. Students are assessed frequently through the application of knowledge to the PAT tasks. This is then used to inform future planning to ensure all students are able to make progress.

The KS3 Science Curriculum seeks to introduce students to a vast range of scientific phenomenon that will help them to better understand the world and build robust knowledge over time. As a department, we strive to inspire all pupils and support them to gain a deep understanding of scientific knowledge, and the discipline itself. Our curriculum is designed to promote a love for science and provide students with opportunities to access many experiences.

We choose to cover a wide variety of topics across biology, chemistry and physics to ensure we meet the needs and interests of all students, whilst still ensuring all topics are covered comprehensively so understanding is thorough. These topics range from cells to interdependence, the universe to pressure, and acids and alkalis to Earth’s resources.

The KS3 curriculum forms the foundation for KS4 and KS5, covering some key topics which run throughout, preparing them effectively for their next steps. However, if students choose not to study science Post-16, our curriculum will provide them with a rich knowledge and skill base to succeed in their future careers.

Homework is set in parallel to the lessons delivered within contact time, as well as developing knowledge for future topics. Students are given 2-3 pieces of homework to complete per topic and these are either paper-based tasks using a stimulus covered in lesson, or via the Seneca Learning platform to assess student understanding of core concepts.

The Science department promotes a culture of curiosity and opportunity through STEM field trips and inter school competitions. There are after school workshops and science clubs which further support and allow the student to see science in a more approachable yet fun angle.

Scientists are considered in many well paid careers due to the wide-ranging number of skills they need to employ throughout their learning. Most content is underpinned with mathematical logic, designing experiments and trials, gathering and presenting findings. Furthermore, the skills of reviewing, evaluating and improving their understanding through deeper analysis and study.

About the KS4 Curriculum intent, implementation, and impact

The transition from Key Stage 3 to Key Stage 4 is not a sharp cut-off point. This is particularly the case in those subjects that are studied to GCSE level by the vast majority of students. The New Road Academy Science Dept seeks to provide a smooth progression to KS4.

Our two year Key Stage 4 allows the Science team to cover content with sufficient depth, richness and rigour – forging links between topics within a subject and between subjects across the curriculum. For example, mathematical skills are a key aspect of the reformed GCSE specification and so we embed this rigorously from Year 9. We work with the Maths team to ensure that we teach the same technique when analysing graphs or completing specific calculations.

Key stage 4 continues with the process of building upon and deepening scientific knowledge and the understanding of ideas developed in earlier key stages in the subject disciplines of biology, chemistry and physics.

Science is changing our lives and is vital to the world’s future prosperity, and all students should be taught essential aspects of the knowledge, methods, processes and uses of science. They should be helped to appreciate the achievements of science in showing how the complex and diverse phenomena of the natural world can be described in terms of a number of key ideas relating to the sciences which are inter-linked, and which are of universal application. These key ideas include:

  • the use of conceptual models and theories to make sense of the observed diversity of natural phenomena
  • the assumption that every effect has one or more cause
  • that change is driven by interactions between different objects and systems
  • that many such interactions occur over a distance and over time
  • that science progresses through a cycle of hypothesis, practical experimentation, observation, theory development and review
  • that quantitative analysis is a central element both of many theories and of scientific methods of inquiry

Students of Science follow the AQA examination board. The content delivered here will be building upon the KS3 AQA scheme of work which we employ at lower school. Students of Separate Science have a slightly more in depth and longer content of study than those of Combined Science. We also offer both courses at higher and foundation tier so inviting all abilities into the world of science.

All three sciences- Biology, Chemistry and Physics are taught in our well-resourced Science Dept. Building on the foundations of year 9 allows us to deliver the KS4 curriculum with the depth and practical experience needed to prepare candidates for their final exams.

Students are assessed routinely through PAT tasks which are effectively topic tests, which aim to link knowledge and understanding to the requirements of the specification. There are a minimum of 2 PATs per Half term allowing us plenty of data to make judgement on the students progress, next steps and where needed set changes.

Their final assessments comprise of 6 written papers. 2 exams per Science. With Separate Science candidates having slightly longer papers and greater examinable content.

On completion of the Science KS4 our students will not only be able to study Science at higher levels, but if they choose not to they will be equipped with transferrable skills to enrich their learning experience in other fields of study.

As well as being accomplished in this subject, students will have the chance to take up leadership opportunities. Furthermore, students will have developed revisit concepts, remembering them without re-teaching of the foundations being necessary. This is all with the intention of building well rounded students who can apply their learning in different ways – as shown in debates, presentations, creation of models to show their understanding.

All topics are routed in scientific understanding and the application of science to daily experiences. The subjects studied across the two years of Key Stage 4 relate to each other and build in complexity to support long-term retention of knowledge and building of effective schemas. These are in line with the National Curriculum for KS4 to ensure we are preparing students for GCSEs and beyond.

However, we also prioritise engagement and interest in science by relating key knowledge to real life, preparing students for the world once they leave us. In keeping with this, we strive to develop students’ inquiry and investigative skills including planning, critical analysis, teamwork, and strong communication of ideas.

Our aim is to ensure the best outcomes for all students. To achieve this, we teach all students even the most challenging content, delivering lessons in ways that make it accessible to all, and ensuring we do not limit any student’s potential.

Homework is set fortnightly using the GCSE Pod platform and Seneca as well as Paper based assignments. to aid retention of core knowledge, as well as develop a range of examination skills. Students will also be asked to complete revision activities and exam practice questions to aid their application of knowledge outside of the classroom.

The Science department promotes a culture of curiosity and opportunity through STEM field trips and inter school competitions. There are Afterschool workshops and Science clubs which further support and allow the student to see Science in a more approachable yet fun angle.

For some students, studying the sciences in key stage 4 provides the platform for more advanced studies, establishing the basis for a wide range of careers. For others, it will be their last formal study of subjects that provide the foundations for understanding the natural world and will enhance their lives in an increasingly technological society.

Notable examples of Science professions include: –

  • Biochemist or Biophysicist
  • Chemist
  • Conservationist
  • Environmental Scientist
  • Environmental Science and Protection Technician
  • Forensic Scientist
  • Geoscientist
  • Hydrologist
  • Medical Scientist
  • Computer and Information Research Scientist
  • Atmospheric Scientist
  • Nuclear Technicians