Search
There are 10 results.
Category
Tag
Tag
All (77)
Active Learning (4)
Activities (4)
Alt Text (2)
Animations (1)
Assessments (3)
Asynchrony (3)
Authentic Activities (2)
Backwards Design (2)
Belonging (1)
Canvas (4)
Case Studies (1)
Collaboration (2)
Color Contrast (2)
Communication (2)
Community (2)
Content Creation (12)
Copyright (2)
Course Maintenance (5)
Course Materials (7)
Course Preparation (3)
Discussions (1)
Diversity (3)
Equity (2)
Faculty Support (1)
Feedback (5)
Formative Assessments (6)
Game-Based Learning (2)
Gamification (1)
Generative AI (1)
Group Work (2)
Hyperlinks (1)
Images (3)
Inclusion (2)
Infographics (2)
Learning Objectives (2)
Multimodality (3)
Page Design (2)
Podcasts (1)
PowerPoint (2)
Presentations (2)
Representation (1)
Revising (2)
Rubrics (3)
Scaffolding (1)
Screen Readers (1)
Summative Assessments (1)
Synchrony (3)
Third-Party Tools (1)
Universal Design for Learning (UDL) (2)
Video (11)
Visual Accessibility (2)
Visual Design (2)
Written Assignments (1)
Backward Design
Backward design is, as the name suggests, a process for designing curricula, courses, and lectures by working backwards from big-picture learning goals. The concept, introduced by Grant Wiggins and Jay McTighe (2005), suggests that instructors create assessments, activities, and course content that are explicitly aligned with the broader learning goals of the unit. This is different from the traditional content-driven approach to learning design, which focuses on course content first and only secondarily tries to align that content with learning goals.
Artificial Intelligence and Online Learning
Higher education institutions are racing to keep pace with the disruption caused by artificial intelligence (AI) tools. A 2023 QuickPoll survey by Educause found that 83% of higher education stakeholders believe generative AI will "profoundly change" the sector over the next three to five years. Additionally, 65% agreed that "the use of generative AI in higher ed has more benefits than drawbacks" (McCormack, 2023, Table 1). While institutions are exploring AI's potential in areas such as admissions, enrollment, administrative duties, scheduling, and institutional data research, this piece focuses on the overarching risks and rewards AI presents in teaching and learning.
Basic Editing in Canvas
To edit a page in Canvas, simply click on the “Edit” button. Each page contains a variety of editing tools, similar to those found on most word processing programs. The Rich Content Editor applies the principles of a WYSIWIG editor (What You See is What You Get) and uses icons to illustrate the functions. You may also hover over an icon to confirm its function.
Updating Your Syllabus
Over time, you may want to make changes to the syllabus of a course. The syllabus documents are saved in the “Files” area (1) of the course. To preserve the integrity of the document, the Word document is located in the “Instructor Only” folder (3) and the PDF is found in the “Documents” folder (2) so it is visible to students.
Managing Files in Canvas
Students and instructors alike benefit from consistent file management in online courses. Ensuring that students can readily locate and access the files they need serves to promote engagement and completion of course requirements. Similarly, consistent file management helps instructors to navigate through and update materials efficiently and to avoid introducing file-related errors. This post outlines recommendations and key considerations for optimizing file management within your online course. While recommendations and considerations related to Canvas-specific functionality are threaded throughout, you will also find broadly applicable tips pertinent to multiple learning management systems.
Inheriting an Online Course
Over the course of your teaching career, you may inherit an online course developed by another faculty member. While such a situation can offer many advantages, it can also provoke many questions and pose significant challenges. Inheriting a complete course with materials and assessments already in place can simplify and streamline some aspects of instruction, but it can be difficult to identify where to start and what to prioritize as you begin engaging with the course. This blog outlines a four-phase process that can lead to a successful transition.
Multimodal Models
Designing a successful multimodal course means, at each step of the process, considering what each format does well—structuring the course such that each piece of content, each activity, each interaction uses the most effective delivery method available. But what does that look like in practice? This piece describes three approaches to structuring a multimodal course. In each model, asynchronous and synchronous time complement one another and further module and course objectives. Where the models differ is in the relative importance of asynchronous activities in enabling students to complete synchronous activities and vice versa.
Six Strategies for Multimodal Content Delivery
If you’re developing a course with synchronous and asynchronous elements, you have a host of options for engaging students and delivering content. Research suggests that incorporating multiple modalities increases accessibility, engagement, and learning (Mick and Middlebrook, 2015; Margolis et al., 2017). With that said, it is important to be intentional about multimodal course design. Both synchronous and asynchronous methods of delivery are effective, but activities can be better suited to one or the other modality and synchronous time is often limited. Delivering selected content asynchronously can support students’ understanding of how information is organized and leave more time for interactivity in synchronous sessions.
Quizzes for the Multimodal Course
From trivia games to final exams, quizzing tools have a variety of uses for learning as well as assessment. Exams and quizzes have a particularly plentiful range of possibilities in a multimodal or hybrid course, where they can be administered synchronously or asynchronously. Research suggests that the presentation of a tool influences student behavior in response to the tool. In comparing two student discussion boards, one an ungraded discussion and one a graded replacement for a final exam, Cheng et al. (2013) found that students displayed more knowledge on the graded board, but more evidence of learning on the ungraded board. The students who participated in the study were more likely to grapple with new ideas when the stakes were low, but more eager to showcase topics they were confident about when their responses would have a greater impact on their grades. When considering quizzing tools, then, we recommend allowing your course goals to guide your usage.