Author(s): Sheena Laursen
Sheena Laursen from Experimentarium in Denmark describes how the centre’s Xciter project helps students motivate each other to delve deeper into science.
Image courtesy of Experimentarium
The Danish ROSE (Relevance of Science Education)w1 investigation shows that science is not popular among 15-year-olds at school. Very few students – particularly girls – see science as the foundation for a promising career. If we wish to motivate young students to take a greater interest in science subjects, we need to look at new ways and new perspectives of teaching science in schools.
The Xciter perspective
The Xciters projectw2 combines the experience of communicating science in informal settings such as science centres with the more formal approach that exists in school settings. As a science centre, Experimentariumw3 has a long tradition of communicating science by actively involving the audience; school-teachers attached to this project bring not only great experience in teaching science but also an in-depth knowledge of their students’ understanding of science.
What is an Xciter?
Xciters are young science communicators in Year 6 (ages 13-14) who become catalysts for the project by spreading their knowledge and inspiring their peers. The overall goal of the Xciters project is to motivate older school students in Denmark (ages 12-16) to become more interested in science topics, and to increase the status of science subjects among these students. Xciters are interested in science, like to experiment and want to pass on their knowledge. The Xciters course gives them both the tools and the ability to achieve this.
In the long term, the Xciters project could encourage more students to choose further scientific studies and careers. Xciters is one of the activities in the PENCIL projectw4 and has gained funding from the Egmont Foundation to continue for five more years.
How Xciters works
Image courtesy of Experimentarium
Three students (ages 13-14) from each science class and their teacher apply to take part in a science communication course at Experimentarium. Those who are selected take part in two three-day training courses run by science education experts and explainers from Experimentarium. The courses, which take place during school time, mix scientific knowledge, hands-on experiments and communication tools, presenting new methods of teaching to the teachers and students.
As fully qualified Xciters, the young science communicators return to their schools and share their knowledge with fellow students through a combination of experiments and dialogue. They lead workshops for fellow Year 7 students, training all students in the year as Xciters and sharing with them their excitement about the project. The Xciters then work in pairs on peer-to-peer presentations for younger students (one or two years younger): planning which experiments to show and how to interact with their audience of up to eight fellow students.
Over the course of the year, Experimentarium visits the schools and stays in close contact with teachers. Teachers can read and download material on the Xciters websitew2 and contact Experimentarium staff if they have questions.
A series of scripts with detailed facts about the scientific topic supports the students in their mentoring efforts. Typical biology, physics or chemistry topics include the lung and the body’s circulation, the physics of sound, and various states of water. A ‘tips and tricks’ manual provides the students with good science communication advice and tools. In the teacher’s manual, inspirational pieces demonstrate how to present the different topics and how to communicate effectively.
Teaching materials on three topics can be found on the Xciters website. For example, in the ‘eye’ materials (available in English), students are guided through the steps of an eye dissection and are provided with the necessary factual knowledge such as the physiology of the eye and how lenses work. In addition, there are suggestions for involving the audience, creating dialogue, and questions to ask.
Peer-to-peer inspiration
Xciters is inspired by the ‘learning by teaching’ strategy or ‘peer-to-peer’ teaching often used in Danish schools when the focus is on emotional topics. This approach helps young people to discuss openly on a level they can refer to and understand. One advantage of using peer-to-peer teaching in science is that it puts the subjects into a context that is attainable and ‘cool to be a part of’.
The pedagogical idea behind the project is that working toward communicating science is more motivating than just listening. Preliminary results indicate that the Xciter students become more interested in science. They also develop confidence in their communication skills, abilities and their knowledge of science subjects. Whether the students taught by the Xciters benefit is yet to be evaluated. What we do know is that the students taught by Xciters talk a great deal about what they have learned and about the experience afterwards, that the bond between the younger students and the older Xciter students is strengthened, and that the younger students look up to the older ones. Many have asked their teachers if they could become Xciters when they are older.
The Xciter method attracts both girls and boys, and they inspire and learn from each other. It seems that the girls naturally employ a communicative approach and boys seem to learn from their enthusiasm, whereas boys seem to be more confident in their knowledge and plunge into experiments from which, in turn, the girls learn.
Qualitative and quantitative evaluations
The first annual evaluation of participating teachers indicated that the project is fulfilling its primary objective: to increase interest in scientific subjects among the school students involved as Xciters. This ongoing evaluation by the Danish University of Education combines both qualitative and quantitative methods.
The beauty of Xciters is that the project need not be limited to school science – it can also be implemented and employed within other subject areas and educational fields. So the opportunities it offers to the scholars of today and tomorrow are many and varied.
Web References
- w1 – For information about the ROSE study of students’ attitudes to science, see:
- Sjøberg S, Schreiner C (2006) How do students perceive science and technology? Science in School 1: 66-69.
- and the ROSE study website.
- w2 – The Xciters website
- w3 – The Experimentarium website
- w4 – Information about PENCIL is available on the Xplora website
- w5 – The website of Ecsite, the European organisation representing science centres and museums
- w6 – Information about NUCLEUS is available on the Xplora website
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