Work samples

Science

Year 9

Above satisfactory

Solar cells

Summary of task

This task was the final assessment task of a five-week teaching and learning unit on solar energy. During the unit, students learnt about scientific concepts related to atomic structure and electricity that allowed them to understand how a solar panel works. They had completed introductory practicals that taught them how to set up a solar panel circuit, use dataloggers to collect electric current and voltage data, and run an experiment to determine a characteristic voltage/current curve for the solar panel (a standard testing method in the solar industry). Students had previously completed a mathematics trigonometry assignment and they applied this knowledge to the tilt angle of the solar panels.

In this task, students were asked to design and perform experiments to investigate the relationship between light intensity and solar panel performance and to submit a scientific report on the investigation. Students performed an initial guided experiment investigating the effect of the tilt angle on solar cell output. Students were then asked to choose two further variables that affect the intensity of incident light and design two experiments to analyse their effects on the power output of the solar cells. The teacher provided help with experimental design and setup. The experimental work was completed in groups, but students wrote their reports individually.

Achievement standard

By the end of Year 9, students explain chemical processes and natural radioactivity in terms of atoms and energy transfers and describe examples of important chemical reactions. They describe models of energy transfer and apply these to explain phenomena. They explain global features and events in terms of geological processes and timescales. They analyse how biological systems function and respond to external changes with reference to interdependencies, energy transfers and flows of matter. They describe social and technological factors that have influenced scientific developments and predict how future applications of science and technology may affect people’s lives.

Students design questions that can be investigated using a range of inquiry skills. They design methods that include the control and accurate measurement of variables and systematic collection of data and describe how they considered ethics and safety. They analyse trends in data, identify relationships between variables and reveal inconsistencies in results. They analyse their methods and the quality of their data, and explain specific actions to improve the quality of their evidence. They evaluate others’ methods and explanations from a scientific perspective and use appropriate language and representations when communicating their findings and ideas to specific audiences.

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