Techniques That Reduce Extraneous Cognitive Load and Manage Intrinsic Cognitive Load during Multimedia Learning

Load Theory ◽

Audio Video

Multimedia is media that combine two or more elements are composed of text, graphics, images, photographs, audio, video, and animation are integrated. In multimedia-assisted learning, students are given the opportunity to learn not only of learning resources such as teachers, but give the opportunity to students to develop better cognitive, creative, and innovative. Cognitive Load Theory is a theory that was introduced as a teaching theory based on the knowledge of human cognitive architecture that we have. The main principle of Cognitive Load Theory is the quality of learning is enhanced if attention is concentrated on the role and limitations of working memory. Three cognitive load in working memory, which is intrinsic cognitive load, Germany cognitive load, and extraneous cognitive load. Keywords: Multimedia, Cognitive Load Theory, intrinsic cognitive load, Germany cognitive load, and extraneous cognitive load.

Learning Analytics for Diagnosing Cognitive Load in E-Learning Using Bayesian Network Analysis

Sustainability ◽

10.3390/su131810149 ◽

2021 ◽

Vol 13 (18) ◽

pp. 10149

Author(s):

Younyoung Choi ◽

Jigeun Kim

Keyword(s):

Academic Achievement ◽

Learning Environment ◽

Cognitive Load ◽

Bayesian Network ◽

Diagnostic Information ◽

Learning Systems ◽

Learning System ◽

E Learning

A learner’s cognitive load is highly associated with their academic achievement within learning systems. Diagnostic information about a learner’s cognitive load is useful for achieving optimal learning, by enabling the learner to manage and control their cognitive load in the e-learning environment. However, little empirical research has been conducted to obtain diagnostic information about the cognitive load in e-learning systems. The purpose of this study was to analyze a personalized diagnostic evaluation for a learner’s cognitive load in an e-learning system, using the Bayesian Network (BN) as a learning analytic method. Data from 700 learners were collected from Cyber University. A learner’s cognitive load level was measured in terms of three components: extraneous cognitive load, intrinsic cognitive load, and germane cognitive load. The BN was built by representing the relationship among the extraneous cognitive load, intrinsic cognitive load, germane cognitive load, and academic achievement. The conditional and marginal probabilities in the BN were estimated. This study found that the BN provided diagnostic information about a learner’s level of cognitive load in the e-learning system. In addition, the BN predicted the learner’s academic achievement in terms of their different cognitive load patterns. This study’s results imply that diagnostic information related to cognitive load helps learners to improve academic achievement by managing and controlling their cognitive loads in the e-learning environment. In addition, instructional designers are able to offer more appropriately customized instructional methods by considering learners’ cognitive loads in online learning.

Features of representations in general chemistry textbooks: a peek through the lens of the cognitive load theory

Chemistry Education Research and Practice ◽

10.1039/c5rp00140d ◽

2016 ◽

Vol 17 (1) ◽

pp. 58-71 ◽

Cited By ~ 13

Author(s):

James M. Nyachwaya ◽

Merry Gillaspie

Keyword(s):

General Chemistry ◽

Cognitive Load ◽

Cognitive Load Theory ◽

The United States ◽

Graphical Analysis ◽

Conceptual Integration ◽

Load Theory ◽

Chemistry Textbooks

The goals of this study were (1) determine the prevalence of various features of representations in five general chemistry textbooks used in the United States, and (2) use cognitive load theory to draw implications of the various features of analyzed representations. We adapted the Graphical Analysis Protocol (GAP) (Sloughet al., 2010) to look at the type of representations used, the function of each representation, the physical integration of representations with associated text, the presence and nature of captions and labels, the indexing of representations, and the number of representations requiring conceptual integration on a given page. Results indicate that on average, in all five textbooks each page had at least four representations. Most representations served a ‘representational’ function, but a number functioned as decorative representations. Most representations were directly integrated with text, but some of the remaining representations were separated by a whole page from associated text. While many pages had an average of two representations that required conceptual integration with text or other representations, some pages had as many as six representations requiring integration. While using textbooks, learners can experience intrinsic, germane or extraneous cognitive load (Sweller, 1994). Our findings indicate that there are various features of representations that could help reduce intrinsic or extraneous cognitive load. However, we also found prevalent features of representations that imply high intrinsic cognitive load or are likely to lead to extraneous cognitive load. Implications for textbook authors and editors, textbook selection, instruction, and science teacher preparation are discussed.

Impact of intrinsic cognitive load and extraneous cognitive load over emotions

International Journal of Scientific and Research Publications (IJSRP) ◽

10.29322/ijsrp.10.06.2020.p10237 ◽

2020 ◽

Vol 10 (06) ◽

pp. 318-328

Author(s):

Sheetal Mehrotra ◽

K Gunalakshmi

Keyword(s):

Cognitive Load ◽

Intrinsic Cognitive Load

Managing LearningThrough Mathematical Literacy Based on Cognitive Load

Turkish Journal of Computer and Mathematics Education (TURCOMAT) ◽

10.17762/turcomat.v12i5.807 ◽

2021 ◽

Vol 12 (5) ◽

pp. 153-160

Author(s):

Andes Safarandes Asmara, St Budi Waluya, Hardi Suyitno, Iwan Junaedi

Keyword(s):

Cognitive Load ◽

Learning Outcomes ◽

Learning Process ◽

Teaching Methods ◽

Difficulty Level ◽

Thought Process ◽

Mathematical Literacy ◽

Germane Cognitive Load

The object of mind is something that must be taught by the teacher to the student in the form of learning, or we know that the teaching is the process ofinteraction between students, between students and teachers, and learning resources in the learning environment so that with it we as educators need to optimize thestudent's thought process so that students can be optimal for information. There are three sources of how students obtain optimization in the learning process, namely: intrinsic cognitive load (dependingon the difficulty level of amaterial), extraneous cognitive load (depending on the presentation of thematerial) and germane cognitive load (whichis imposed by teaching methods that lead to better learning outcomes). the results showed that the interactive element is well managed and extraneous cognitive load is suppressed to a mable so that it creates a large enough germane cognitive load.

Assessment of Cognitive Load in Multimedia Learning Using Dual-Task Methodology

Experimental Psychology (formerly Zeitschrift für Experimentelle Psychologie) ◽

10.1027//1618-3169.49.2.109 ◽

2002 ◽

Vol 49 (2) ◽

pp. 109-119 ◽

Cited By ~ 120

Author(s):

Roland Brünken ◽

Susan Steinbacher ◽

Jan L. Plass ◽

Detlev Leutner

Keyword(s):

Cognitive Load ◽

Dual Task ◽

Cognitive Load Theory ◽

Multimedia Learning ◽

Learning Systems ◽

Learning Materials ◽

New Approach ◽

Direct Assessment ◽

Load Theory ◽

Audiovisual Presentation

Abstract. In two pilot experiments, a new approach for the direct assessment of cognitive load during multimedia learning was tested that uses dual-task methodology. Using this approach, we obtained the same pattern of cognitive load as predicted by cognitive load theory when applied to multimedia learning: The audiovisual presentation of text-based and picture-based learning materials induced less cognitive load than the visual-only presentation of the same material. The findings confirm the utility of dual-task methodology as a promising approach for the assessment of cognitive load induced by complex multimedia learning systems.