Join us to discuss cognitive load on Monday 7th June at 2pm

Cognitive Load Theory provides a basis for understanding the learning process. It has been widely used to improve the teaching and learning of many subjects including Computer Science. But how can it help us build better collaborative learning experiences? Join us to discuss via a paper by Paul Kirschner, John Sweller, Femke Kirschner & Jimmy Zambrano R. [1] From the abstract:

Cognitive load theory has traditionally been associated with individual learning. Based on evolutionary educational psychology and our knowledge of human cognition, particularly the relations between working memory and long-term memory, the theory has been used to generate a variety of instructional effects. Though these instructional effects also influence the efficiency and effectiveness of collaborative learning, be it computer supported or face-to-face, they are often not considered either when designing collaborative learning situations/environments or researching collaborative learning. One reason for this omission is that cognitive load theory has only sporadically concerned itself with certain particulars of collaborative learning such as the concept of a collective working memory when collaborating along with issues associated with transactive activities and their concomitant costs which are inherent to collaboration. We illustrate how and why cognitive load theory, by adding these concepts, can throw light on collaborative learning and generate principles specific to the design and study of collaborative learning.

Thanks to Nicola Looker for suggesting this months paper. As usual, we’ll be meeting on zoom, see for details.


  1. Kirschner, Paul A.; Sweller, John; Kirschner, Femke; Zambrano R., Jimmy (2018). “From Cognitive Load Theory to Collaborative Cognitive Load Theory”. International Journal of Computer-Supported Collaborative Learning13 (2): 213–233. DOI:10.1007/s11412-018-9277-y

Leave a Reply

Your email address will not be published. Required fields are marked *