Multimedia Principle: Difference between revisions
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<p>The Multimedia Principle is one of Mayer's 12 multimedia learning principles that foster [https://ectwiki.online/index.php?title=Generative_Processing generative processing] in the [https://ectwiki.online/index.php?title=Cognitive_Theory_of_Multimedia_Learning cognitive theory of learning]. The Multimedia Principle states that 'learners generally benefit from the inclusion of words with graphics rather than the use of either words or graphics alone(Mayer, n.d.).' By words, we mean printed text (words displayed on the screen that people read) or spoken text (words presented as speech that people listen to through earphones or speakers). By graphics, we mean static illustrations such as drawings, charts, graphs, maps, or photos, and dynamic graphics such as animation or video. We use the term [https://ectwiki.online/index.php?title=Multiple_Representation_Principle multimedia representation] to refer to any presentation that contains both words and graphics. The implication of the principle through graphic inclusion should be considered carefully with the content and audience. The effectiveness of combining imagery and text has also been found to vary depending on the content to be learned, the conditions under which performance is measured, and individual differences in spatial ability, prior knowledge, and general learning ability. | <p>The Multimedia Principle is one of Mayer's 12 multimedia learning principles that foster [https://ectwiki.online/index.php?title=Generative_Processing generative processing] in the [https://ectwiki.online/index.php?title=Cognitive_Theory_of_Multimedia_Learning cognitive theory of learning]. The Multimedia Principle states that 'learners generally benefit from the inclusion of words with graphics rather than the use of either words or graphics alone(Mayer, n.d.).' By words, we mean printed text (words displayed on the screen that people read) or spoken text (words presented as speech that people listen to through earphones or speakers). By graphics, we mean static illustrations such as drawings, charts, graphs, maps, or photos, and dynamic graphics such as animation or video. We use the term [https://ectwiki.online/index.php?title=Multiple_Representation_Principle multimedia representation] to refer to any presentation that contains both words and graphics. The implication of the principle through graphic inclusion should be considered carefully with the content and audience. The effectiveness of combining imagery and text has also been found to vary depending on the content to be learned, the conditions under which performance is measured, and individual differences in spatial ability, prior knowledge, and general learning ability. | ||
=='''Evidence'''== | ==='''Evidence'''=== | ||
[[File:Figure 4.7.png|thumb|260x260px|'''Figure 4.7''']] | [[File:Figure 4.7.png|thumb|260x260px|'''Figure 4.7''']] | ||
[[File:Figure 4.8.png|thumb|260x260px|'''Figure 4.8''']] | [[File:Figure 4.8.png|thumb|260x260px|'''Figure 4.8''']] | ||
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In the study, Ollerenshaw, Aidman, and Kidd (1997) presented text lessons on how pumps work to learners who had low or high knowledge of the domain. Low-knowledge learners benefited greatly when the animation was added to the text, whereas high-knowledge learners did not. These findings prompted Kalyuga and colleagues to propose the ‘expertise reversal effect’, which holds that instructional support that benefits low-knowledge learners may not benefit (or may even harm) high-knowledge learners. Overall, instructional designers should be aware of the level of prior knowledge of their target audiences in order to provide the necessary support, such as multimedia instruction, to low-knowledge learners. | In the study, Ollerenshaw, Aidman, and Kidd (1997) presented text lessons on how pumps work to learners who had low or high knowledge of the domain. Low-knowledge learners benefited greatly when the animation was added to the text, whereas high-knowledge learners did not. These findings prompted Kalyuga and colleagues to propose the ‘expertise reversal effect’, which holds that instructional support that benefits low-knowledge learners may not benefit (or may even harm) high-knowledge learners. Overall, instructional designers should be aware of the level of prior knowledge of their target audiences in order to provide the necessary support, such as multimedia instruction, to low-knowledge learners. | ||
=='''Design Implication'''== | ==='''Design Implication'''=== | ||
[[File:Excel Course Origin.png|thumb|250x250px|'''Excel Course Origin''']] | [[File:Excel Course Origin.png|thumb|250x250px|'''Excel Course Origin''']] | ||
[[File:Excel Course Revised.png|thumb|250x250px|'''Excel Course Revised''']] | [[File:Excel Course Revised.png|thumb|250x250px|'''Excel Course Revised''']] | ||
'''How a Bicycle Pump Works''' | =='''How a Bicycle Pump Works'''== | ||
Giving an example of the implication of the multimedia principle to the representation of how a car's braking system works, and how the pump work. In one study, learners read an accurate verbal description of how a bicycle pump works(Figure 4.7), while others read the same verbal description and viewed a diagram depicting the same steps(Figure 4.8). | Giving an example of the implication of the multimedia principle to the representation of how a car's braking system works, and how the pump work. In one study, learners read an accurate verbal description of how a bicycle pump works(Figure 4.7), while others read the same verbal description and viewed a diagram depicting the same steps(Figure 4.8). | ||
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Also, Butcher (2006) found that people developed a deeper understanding of how the human heart works from text with simple illustrations than from text alone. We call this finding the [https://ectwiki.online/index.php?title=Multimedia_effect '''multimedia effect''']—people learn more deeply from words and graphics than from words alone. In a recent review, Fletcher and Tobias (2005, p. 128) concluded: “The multimedia principle, which suggests that learning and understanding are enhanced by adding pictures to text rather than presenting text alone, appears to be well supported by findings from empirical research.” The multimedia effect establishes the potential for multimedia lessons to improve human learning. | Also, Butcher (2006) found that people developed a deeper understanding of how the human heart works from text with simple illustrations than from text alone. We call this finding the [https://ectwiki.online/index.php?title=Multimedia_effect '''multimedia effect''']—people learn more deeply from words and graphics than from words alone. In a recent review, Fletcher and Tobias (2005, p. 128) concluded: “The multimedia principle, which suggests that learning and understanding are enhanced by adding pictures to text rather than presenting text alone, appears to be well supported by findings from empirical research.” The multimedia effect establishes the potential for multimedia lessons to improve human learning. | ||
'''E-Learning Excel Design''' | =='''E-Learning Excel Design'''== | ||
Another example illustrates how the multimedia principle help to improve the design of instruction. Ben, the project programmer, works quickly converting the classroom lecture notes into HTML. He proudly shows the team his first-draft storyboards, such as the one shown in Figure Excel Course Origin. However, after the discussion with other group members, Ben revised the Excel with visuals and words. The comparison of the original version and the revised version allows us to clearly see the implication of the multimedia principle. | Another example illustrates how the multimedia principle help to improve the design of instruction. Ben, the project programmer, works quickly converting the classroom lecture notes into HTML. He proudly shows the team his first-draft storyboards, such as the one shown in Figure Excel Course Origin. However, after the discussion with other group members, Ben revised the Excel with visuals and words. The comparison of the original version and the revised version allows us to clearly see the implication of the multimedia principle. | ||
[https://www.wikihow.com/Fix-an-iPhone-Screen'''How to Fix an iPhone Screen'''] | [https://www.wikihow.com/Fix-an-iPhone-Screen =='''How to Fix an iPhone Screen'''==] | ||
The example of the 'How to Fix an iPhone Screen'shows a series of transformational diagrams with instructional languages that explain how to fix an iPhone screen following the steps. The diagrams allow learners to depict and learn the correct instructions without making mistakes, while only the word description may cause external processing in learners working memories which takes them more time to operate or even leads to the wrong result. | The example of the 'How to Fix an iPhone Screen'shows a series of transformational diagrams with instructional languages that explain how to fix an iPhone screen following the steps. The diagrams allow learners to depict and learn the correct instructions without making mistakes, while only the word description may cause external processing in learners working memories which takes them more time to operate or even leads to the wrong result. | ||
Revision as of 19:02, 15 December 2022
Overview
The Multimedia Principle is one of Mayer's 12 multimedia learning principles that foster generative processing in the cognitive theory of learning. The Multimedia Principle states that 'learners generally benefit from the inclusion of words with graphics rather than the use of either words or graphics alone(Mayer, n.d.).' By words, we mean printed text (words displayed on the screen that people read) or spoken text (words presented as speech that people listen to through earphones or speakers). By graphics, we mean static illustrations such as drawings, charts, graphs, maps, or photos, and dynamic graphics such as animation or video. We use the term multimedia representation to refer to any presentation that contains both words and graphics. The implication of the principle through graphic inclusion should be considered carefully with the content and audience. The effectiveness of combining imagery and text has also been found to vary depending on the content to be learned, the conditions under which performance is measured, and individual differences in spatial ability, prior knowledge, and general learning ability.
Evidence
The multimedia principle does not apply equally to all learners. It works best for novices. (Mayer, n.d.) Here we define ‘novices’ as learners with low knowledge of the domain and ‘experts’ as learners with high knowledge of the domain. The supportive evidence is a series of three experiments involving lessons on brakes, pumps, and generators, Mayer andGallini (1990) reported that novices learned better from text and graphics (such as shown in Figure 4.8) than from words alone (such as shown in Figure 4.7). However, experts learned equally well from both conditions.
In the study, Ollerenshaw, Aidman, and Kidd (1997) presented text lessons on how pumps work to learners who had low or high knowledge of the domain. Low-knowledge learners benefited greatly when the animation was added to the text, whereas high-knowledge learners did not. These findings prompted Kalyuga and colleagues to propose the ‘expertise reversal effect’, which holds that instructional support that benefits low-knowledge learners may not benefit (or may even harm) high-knowledge learners. Overall, instructional designers should be aware of the level of prior knowledge of their target audiences in order to provide the necessary support, such as multimedia instruction, to low-knowledge learners.
Design Implication
How a Bicycle Pump Works
Giving an example of the implication of the multimedia principle to the representation of how a car's braking system works, and how the pump work. In one study, learners read an accurate verbal description of how a bicycle pump works(Figure 4.7), while others read the same verbal description and viewed a diagram depicting the same steps(Figure 4.8).
The study shows that in all eleven comparisons, learners who received a multimedia lesson consisting of words and pictures performed better on a subsequent transfer test than students who received the same information in words alone. Across the eleven studies, people who learned from words and graphics produced between 55 percent to 121 percent more correct solutions to transfer problems than people who learned from words alone.
Also, Butcher (2006) found that people developed a deeper understanding of how the human heart works from text with simple illustrations than from text alone. We call this finding the multimedia effect—people learn more deeply from words and graphics than from words alone. In a recent review, Fletcher and Tobias (2005, p. 128) concluded: “The multimedia principle, which suggests that learning and understanding are enhanced by adding pictures to text rather than presenting text alone, appears to be well supported by findings from empirical research.” The multimedia effect establishes the potential for multimedia lessons to improve human learning.
E-Learning Excel Design
Another example illustrates how the multimedia principle help to improve the design of instruction. Ben, the project programmer, works quickly converting the classroom lecture notes into HTML. He proudly shows the team his first-draft storyboards, such as the one shown in Figure Excel Course Origin. However, after the discussion with other group members, Ben revised the Excel with visuals and words. The comparison of the original version and the revised version allows us to clearly see the implication of the multimedia principle.
==How to Fix an iPhone Screen==
The example of the 'How to Fix an iPhone Screen'shows a series of transformational diagrams with instructional languages that explain how to fix an iPhone screen following the steps. The diagrams allow learners to depict and learn the correct instructions without making mistakes, while only the word description may cause external processing in learners working memories which takes them more time to operate or even leads to the wrong result.
Graphics to Teach Content Types
To make the implication more effective and functional for the learners, the instructional designer should consider the lesson content and audience based on its graphic types and content types. Lesson content can be broken down into five content types: facts, concepts, processes, procedures, and principles. Graphic types include graphics that decorate the page (decorative graphics) or simply represent a single object (representational graphics), and you incorporate graphics that help the learner understand the material (transformational and interpretive graphics) or organize the material (organizational graphics).
Selecting appropriate graphic types according to lesson content type is shown in the table.
Graphic Types:
- Decorative: Visual added for aesthetic appeal or for humor
- Representational: Visuals that illustrate the appearance of an object
- Organizational: Visuals that show qualitative relationships among content
- Relational: Visuals that summarize quantitative relationships
- Transformational: Visuals that illustrate changes in time or over space
- Interpretive: Visuals that make intangible phenomena visible and concrete