- Jun 2020
Baer, T., & Schnall, S. (2020). Quantifying the Cost of Decision Fatigue: Supoptimal Risk Decisions in Finance [Preprint]. PsyArXiv. https://doi.org/10.31234/osf.io/j4wef
- May 2020
Noetel, M., Griffith, S., Delaney, O., Sanders, T., Parker, P., del Pozo Cruz, B., & Lonsdale, C. (2020, May 18). Are you better on YouTube? A systematic review of the effects of video on learning in higher education. https://doi.org/10.31234/osf.io/kynez
- Apr 2020
- Feb 2020
TABLE 1. Practices to maximize student learning from educational videos
Table 1. resource for planning/making effective videos
Finally, the utility of video lessons can be maximized by matching modality to content. By using both the audio/verbal channel and the visual/pictorial channel to convey new infor-mation, and by fitting the particular type of information to the most appropriate channel, instructors can enhance the germane cognitive load of a learning experience.
matching modality to content. So if you want to talk about history, or a book, or just some reflection, it makes less sense to do it over video, but if you want to talk about art history maybe you want to have a video component or be primarily video
Weeding, or the elimination of interesting but extraneous information that does not contribute to the learning goal, can provide further benefits. For example, music, complex back-grounds, or extra features within an animation require the learner to judge whether he or she should be paying attention to them, which increases extraneous load and can reduce learn-ing.
Weeding + definition, removing flash and bells and whistles that might cause the student to be distracted
The benefits of signaling are complemented by segmenting, or the chunking of information in a video lesson. Segmenting allows learners to engage with small pieces of new information and gives them control over the flow of new information.
Segmenting or chunking
Signaling, which is also known as cueing (deKoning et al., 2009), is the use of on-screen text or symbols to highlight important information. For example, signaling may be provided by the appearance of two or three key words (Mayer and John-son, 2008; Ibrahim et al., 2012), a change in color or contrast (deKoning et al., 2009), or a symbol that draws attention to a region of a screen (e.g., an arrow; deKoning et al., 2009).
Signaling definition + examples
The third component of a learning experience is extraneous load, which is cognitive effort that does not help the learner toward the desired learning outcome.
extraneous load, the fiddling with technology, the finding new content to read, the poorly connected information, etc.
The first of these is intrinsic load, which is inherent to the subject under study and is determined in part by the degrees of connec-tivity within the subject
how difficult is a concept to understand, word pairing is less difficult than grammar rules.
he second component of any learning experience is germane load, which is the level of cognitive activity necessary to reach the desired learning outcome—for example, to make the comparisons, do the analysis, and elucidate the steps necessary to master the lesson.
the level of cognitive activity needed to learn the learning outcome (memorize a few words), define terms, recall a history event, draw something.
This processing is a prerequisite for encoding into long-term memory, which has virtually unlimited capacity. Because working memory is very limited, the learner must be selective about what information from sensory mem-ory to pay attention to during the learning process, an observa-tion that has important implications for creating educational materials
Cognitive load theory, initially articulated by Sweller (1988, 1989, 1994), suggests that memory has several components. Sensory memory is tran-sient, collecting information from the environment. Information from sensory memory may be selected for temporary storage and processing in working memory,
Cognitive load theory
- intrinsic load
- cognitive theory of multimedia
- cognitive load theory
- germane load
- extraneous load
- Nov 2019
E-Learning Theory (Mayer, Sweller, Moreno)
This website outlines key principles of the E-Learning Theory developed by Mayer, Sweller, and Moreno. E-Learning Theory describes how the implementation of educational technology can be combined with key principles of how we learn for better outcomes. This site describes those principles as a guide of more effective instructional design. Users can also find other learning theories under the "Categories" link at the top of the page. Examples include Constructivist theories, Media & Technology theories, and Social Learning theories. Rating: 8/10
- technology integration
- online learning
- higher education
- adult learning
- Social Cognitive Theory
- Cognitive Load Theory
- adult education
- active learning
- self-directed learning
- learning theories
- e-learning theory
- Mar 2019
Joe understands this and explains that he will do his best to give you the valid conceptual feel that you want—trying to tread the narrow line between being too detailed and losing your over-all view and being too general and not providing you with a solid feel for what goes on.
- Oct 2017
He recommends decreasing cognitive load by putting smaller bits of information together into chunks.