Simple Learning Experience Design: How To Create?


A Simple, Effective, And Attractive Approach!

Simplicity is the quality of being easily understood, whether in communication with clear speech, or in industrial design with an intuitive product design. It also plays a crucial role in Instructional Design, where clear and concise steps are essential for effective learning. As an Instructional Designer, the challenge is to incorporate simplicity into the creation of learning experience design (LXD) solutions. So:

  • Why simplicity is important for an effective learning experience design?
  • How can we ensure that a learning experience remains simple yet effective?

Why Is Simplicity Crucial In Learning Experience Design?

This section explores five foundational principles that underscore the importance of simplicity in LXD: cognitive load theory, Miller’s law, the principle of least effort, Jakob’s law, and Richard Mayer’s research.

Cognitive Load Theory

Cognitive load theory, developed by John Sweller, tells us that our working memory can only handle so much information at once. If we overload it, learning becomes difficult, if not impossible. Key takeaways include:

  • Intrinsic load
    This is the complexity inherent in the material itself. The goal is to present content in a way that is clear and understandable, without oversimplifying important concepts.
  • Extraneous load
    This is the cognitive effort required by the way information is presented. Reducing distractions and irrelevant details helps learners focus on what’s important.
  • Germane load
    This is the mental effort used to create and store new knowledge. Our designs should encourage this type of productive load, aiding deeper understanding.
  • Application in design
    Minimize extraneous distractions, manage the complexity of the content, and support meaningful learning by helping learners build on what they already know. This balance is crucial for effective learning experiences.

2. Miller’s Law

George A. Miller’s research suggests that the average person can hold about seven (plus or minus two) items in their working memory. This has profound implications for how we design learning content. Key takeaways includes:

  • Chunking information
    Breaking down information into smaller, manageable units makes it easier for learners to process and remember. This could mean organizing content into lists, steps, or other logical groupings.
  • Application in design
    Structure your content in chunks of five to nine elements. Whether you’re presenting steps in a process or key concepts, grouping information in this way helps learners engage with and retain the material more effectively.

3. Principle Of Least Effort

The principle of least effort suggests that people naturally prefer to expend the least amount of energy possible to achieve their goals. In learning, this means designing experiences that are easy to navigate and understand. Key takeaways include:

  • Ease of use
    If something is too complicated or requires too much effort to understand, learners are likely to disengage. Simplicity in design encourages continued participation and deeper learning.
  • Application in design
    Ensure that your learning experiences are intuitive. This means clear instructions, simple navigation, and a straightforward presentation of information. The easier it is for learners to access and process content, the more successful the learning experience will be.

4. Jakob’s Law

Jakob’s law, from usability expert Jakob Nielsen, states that users prefer websites (and by extension, learning platforms) to work in ways they are already familiar with. Consistency with familiar patterns reduces the cognitive load required to learn new systems. Key takeaways include:

  • Design consistency
    By following established design conventions, learners can navigate content more easily, freeing up their cognitive resources to focus on learning rather than figuring out how to use the platform.
  • Application in design
    Incorporate familiar design patterns and conventions into your learning platforms. When learners don’t have to struggle with the interface, they can concentrate on absorbing the material. Consistency is key to reducing unnecessary cognitive effort.

5. Richard Mayer’s Research

Richard Mayer’s research has provided valuable insights into how people learn best from multimedia. His principles guide us in designing educational materials that align with natural learning processes. Key takeaways include:

  • Multimedia principle
    Combining words with pictures enhances learning more than words alone.
  • Coherence principle
    Exclude extraneous material to keep learners focused on the essential content.
  • Modality principle
    People learn better when information is presented using complementary channels (e.g., visuals with narration rather than visuals with text).
  • Application in design
    Use Mayer’s principles to guide the design of multimedia learning experiences. Focus on integrating visuals that support the text, keep content concise and relevant, and choose the right modality for your content to ensure the best possible learning outcomes.

What Are The Best Practices For Adapting Simplicity Principles In Learning Experience Design?

In this section, we will dive into how to apply the previously mentioned principles in our learning experience design solutions. We will focus on four key actions: defining clear objectives, prioritizing the learner’s experience, using a variety of content formats, and structuring content logically.

1. Define Your Objectives

A clear understanding of your learning objectives is foundational. Start by identifying what you want your learners to achieve. Objectives should be specific, measurable, and aligned with the overall goals of the learning experience. This focus helps in creating content that directly supports these goals, avoiding unnecessary complexity.

2. Focus On The Learner Experience

The learner’s perspective should be central to your design. Consider their needs, preferences, and prior knowledge. Simplify interfaces and interactions to minimize cognitive load, making it easier for learners to engage with the material. Strive for an intuitive design that guides learners effortlessly through their journey.

3. Use A Variety Of Content Formats

Diverse content formats can enhance engagement and accommodate different learning styles. While variety is important, ensure that each format is used purposefully and contributes to the learning objectives. Incorporate text, images, videos, and interactive elements in a balanced manner to maintain simplicity and prevent overwhelming the learner.

4. Structure Content Logically

Organize content in a clear, logical sequence. Begin with foundational concepts and gradually introduce more complex ideas. Use headings, bullet points, and concise paragraphs to break down information. A well-structured layout helps learners follow along without getting lost or confused.

Glossary For Inspiration

  • Cognitive load
    The amount of mental effort required to process and understand information. In LXD, minimizing cognitive load involves simplifying content and design to make learning more efficient.
  • Content formats
    The various types of media used in learning materials, including text, images, videos, and interactive elements. Using a variety of formats can enhance engagement but should be done in a way that maintains simplicity.
  • Active learning
    An instructional approach that engages learners in activities that require them to actively process and apply knowledge. Techniques include problem-solving, discussions, and interactive exercises, all designed to enhance understanding and retention.
  • User Experience (UX)
    The overall experience of a learner interacting with a learning system or material. Good UX design simplifies navigation, reduces confusion, and ensures that learning is intuitive and enjoyable.
  • Iterative design
    A process of continuously refining and improving learning materials based on feedback and evaluation. Iterative design helps in addressing issues and enhancing simplicity over time.
  • Jakob’s law
    A principle stating that users prefer designs that are familiar and consistent with their previous experiences. Applying Jakob’s law means using established conventions and simplifying interfaces to meet user expectations.
  • Principle of least effort
    The idea is that users will choose the path of least resistance. In LXD, this principle encourages designing learning experiences that minimize the effort required by learners to achieve their goals.
  • Miller’s law
    A cognitive psychology principle suggests that the average number of objects an individual can hold in working memory is about seven. In LXD, this means structuring content to avoid overwhelming learners by breaking it into manageable chunks.

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