Scaffolding information problem solving in web-based collaborative inquiry learning

This study investigated the impact of different modes of scaffolding on students who are learning science through a web-based collaborative inquiry project in authentic classroom settings and explored the interaction effects with students’ characteristics. The intervention study aimed to improve domain-specific knowledge and metacognitive awareness during online information problem solving (IPS) as part of an online inquiry project. Three experimental conditions (teacher-enhanced scaffolding, technology-enhanced scaffolding, and both forms of scaffolding) were compared with a control condition in a two-by-two factorial quasi-experimental design. Moreover, gender and prior knowledge were examined as two factors which may have a significant impact on Web-based learning. In a four-week field study in secondary science education, pretest-posttest differences were measured. In total 347 students from 18 secondary school classes were involved and the classes were randomly distributed over the 4 conditions. Our findings support the notion of multiple scaffolding as an approach to enhance both knowledge acquisition and metacognitive awareness with respect to IPS-processes and to meet a mix of students with different needs within the context of a web-based inquiry learning project.

► Effects of scaffolding on knowledge acquisition and metacognition are examined.
► Technology-enhanced scaffolding and teacher-enhanced scaffolding are compared.
► Teacher-enhanced scaffolding is important to increase knowledge acquisition.
► Providing technology-enhanced scaffolds improves students’ metacognitive awareness.
► Girls and low-achievers benefit more from teacher-enhanced scaffolding.