These resources were developed by the Gatsby Science Enhancement Programme and the Centre for Science Education at Sheffield Hallam University in order to demonstrate new ways that ICT can be used to enhance practical work in science. Research scientists use computer technology in both the collection and the...

Understanding the osmotic potential of plant cells is a key part of understanding...

This booklet is part of the ‘Innovations in Practical Work’ series published by the Gatsby Science Enhancement Programme (SEP) and produced in partnership with the Walker Institute for Climate System Research. Climate scientists do not have a ‘climate in a test tube’ to try out their ideas, so to understand the...

The Chemical Engineering Special Study was revised and updated for the Fourth Edition of Nuffield Advanced Chemistry. All the theory was explained in the Students’ Book. The experiments were described in a separate file. The Teachers’ and Technicians’ Guide provided the...

The Materials Science Special Study was revised and updated for the Fourth Edition of Nuffield Advanced Chemistry. All the theory was explained in the Students’ Book. The experiments were described in a separate file. The Teachers’ and Technicians’ Guide provided the technical information for setting up the...

The first Student Workbook for Nuffield Physical Science began with an extensive introduction to this novel course for students. The Workbook was not designed as a textbook. The content of each section was arranged on the same plan, and each contained four types of...

The second Student Workbook for Nuffield Physical Science began with an extensive introduction to this novel course for students. The Workbook was not designed as a textbook.

The content of each section was arranged on the same plan, and each contained four types of material: 'Introduction', passages of '...

This booklet is part of the ‘Innovations in Practical Work’ series published by the Gatsby Science Enhancement Programme (SEP). Radiation is all around us and is part of our everyday life. Much of the radiation that bombards us comes from natural sources, though we are...

This multimedia package was developed by the Gatsby Science Enhancement Programme to support and extend the teaching of sensors to students aged 14-19. The development and use of sensors is a rapidly growing area. Students should already have some familiarity with sensors through their use in a classroom context in...

Produced by Solar Spark, this is a simple practical activity that can be used to show how a solar photovoltaic cell works. During a 45-60 minute session, students make solar cells out of cheap and readily accessible materials. The mechanism behind the solar cell is similar to that used in a dye-sensitised solar...

From NASA, Solar Energy for Space Exploration is a problem-based learning activity. The project requires students to propose and defend a design to provide power to a lunar or Martian research base for six astronauts. To prepare for the final project, students investigate the variables that affect the operation of...

These resources from NASA look at why telescopes are put into space. Students build simple spectroscopes and telescopes to learn the answer to this question. This educator guide is divided into units of study that include science demonstrations, lesson plans and student sheets so that students may learn about Earth...

Several different treatments are used to autolyse yeast cells. The viability of the autolysed yeast is then tested by: plating out on agar; testing for dehydrogenase activity; microscopic examination with methylene blue.

In this practical protocol students investigate one way in which bacteria acquire antibiotic resistance through conjugation - horizontal gene transfer from one bacterial strain or species to another.

Plasmid-mediated evolution is fast because whole functional ‘modules’ are lost and gained, rather than the...