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E-grāmata: Advances in Cognitive Load Theory: Rethinking Teaching

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Edited by (University of Wollongong, Australia), Edited by (University of Wollongong, Australia), Edited by (University of New South Wales, Australia)
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Cognitive load theory uses our knowledge of how people learn, think and solve problems to design instruction. In turn, instructional design is the central activity of classroom teachers, of curriculum designers, and of publishers of textbooks and educational materials, including digital information. Characteristically, the theory is used to generate hypotheses that are tested using randomized controlled trials. Cognitive load theory rests on a base of hundreds of randomized controlled trials testing many thousands of primary and secondary school children as well as adults.

That research has been conducted by many research groups from around the world and has resulted in a wide range of novel instructional procedures that have been tested for effectiveness. Advances in Cognitive Load Theory, in describing current research, continues in this tradition. Exploring a wide range of instructional issues dealt with by the theory, it covers all general curriculum areas critical to educational and training institutions and outlines recent extensions to other psycho-educational constructs including motivation and engagement.

With contributions from the leading figures from around the world, this book provides a one-stop-shop for the latest in cognitive load theory research and guidelines for how the findings can be applied in practice.

List of illustrations
viii
List of contributors
x
1 Cognitive load theory
1(12)
John Sweller
PART 1 General theoretical advances
13(40)
2 Load reduction instruction (LRI): Sequencing explicit instruction and guided discovery to enhance students' motivation, engagement, learning, and achievement
15(15)
Andrew J. Martin
Paul Evans
3 How cognitive load theory can be applied to collaborative learning: Collaborative cognitive load theory
30(11)
R. Jimmy Zambrano
Paul A. Kirschner
Femke Kirschner
4 Cognitive load theory and working memory models: Comings and goings
41(12)
Sebastien Puma
Andre Tricot
PART 2 Specific research advances and research procedures
53(48)
5 Using arrow-lines to integrate pictorial and textual information in electronic slideshow assisted lecturing
55(11)
Tzu-Chien Liu
Yi-Chun Lin
Yu-Chen Kuo
6 How to measure effects of self-regulated learning with checklists on the acquisition of task selection skills
66(14)
Jimmie Leppink
Fred Paas
Tamara van Gog
Jeroen J. G. van Merrienboer
7 The effects of transient information and element interactivity on learning from instructional animations
80(9)
Mona Wong
Juan C. Castro-Alonso
Paul Ayres
Fred Paas
8 Visuospatial tests and multimedia learning: The importance of employing relevant instruments
89(12)
Juan C. Castro-Alonso
Paul Ayres
Mona Wong
Fred Paas
PART 3 Human movement, pointing, tracing and gesturing
101(54)
9 Embodying learning through physical activity and gestures in preschool children
103(16)
Myrto Mavilidi
Kim Ouwehand
Anthony D. Okely
Paul Chandler
Fred Paas
10 Learning human physiology by pointing and tracing: A cognitive load approach
119(11)
Paul Ginns
Amy Kydd
11 Gesture-based learning with ICT: Recent developments, opportunities and considerations
130(12)
Stoo Sepp
Shirley Agostinho
Sharon Tindall-Ford
Fred Paas
12 Embodied cognition?: Effects of pointing and tracing gestures on learning performance, eye movement and cognitive load
142(13)
Babette Park
Andreas Korbach
Paul Ginns
Roland Briinken
PART 4 New effects and new conditions required for old effects
155(84)
13 Self-management of cognitive load: Potential and challenges
157(11)
Faisal Mirza
Shirley Agostinho
Sharon Tindall-Ford
Fred Paas
Paul Chandler
14 Effects of informed use: A proposed extension of the self-management effect
168(12)
Alexander Eitel
Lisa Bender
Alexander Renkl
15 Factors that impact on the effectiveness of instructional animations
180(14)
Paul Ayres
Juan C. Castro-Alonso
Mona Wong
Nadine Marcus
Fred Paas
16 The effects of self-regulation training on self-regulated learning competencies and cognitive load: Does socioeconomic status matter?
194(15)
Ferdinand Stebner
Corinna Schuster
Theresa Dicke
Yves Karlen
Joachim Wirth
Detlev Leutner
17 What should students do first when learning how to solve a physics problem: Try to solve it themselves or study a worked example?
209(12)
Slava Kalyuga
Chih-Yi Hsu
18 The centrality of element interactivity to cognitive load theory
221(12)
Wayne Leahy
John Sweller
19 Conclusions
233(6)
John Sweller
Sharon Tindall-Ford
Shirley Agostinho
Index 239
Sharon Tindall-Ford is an Associate Professor of Educational Psychology at the University of Wollongong. Her research interests in the area of cognition and instruction have focused on a number of cognitive load effects including the modality effect, worked example effect, imagination effect and self management of cognitive load. She is particularly interested in how these effects are implemented within primary and secondary classrooms.

Shirley Agostinho is an Associate Professor of Educational Technology at the University of Wollongong. Her research focuses on how teachers design and how learners support their own learning using digital technologies. Her interest in cognitive load theory is concerned with how learners can apply cognitive load theory principles to support their learning.

John Sweller is an Emeritus Professor of Educational Psychology at the University of New South Wales. His research is associated with cognitive load theory. The theory is a contributor to research on issues associated with human cognition, its links to evolution by natural selection, and the consequences for instructional design.
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