Group items tagged

"Essentially, digital (and physical) mind mapping allows students to view the entire forest instead of a single tree. As they create a mind map, they capture the wider ecosystem of information by visually connecting short keywords and phrases rather than writing complete sentences. Upon later review-for retention, exam preparation or papers-the mind map is like a CD. You jump right to the information that interests you. In contrast, linear notes are like audio tapes-you waste time wading line by line through the content in hopes of getting to what you want. This more efficient use of space (and time) lets students see how normally unconnected ideas might fit together. Thus, the mind maps doubles as a store of information and an engine of creativity. Using it in the classroom and even giving mind mapping assignments forces students to break the linearity of their earlier education."

"The Stripling Inquiry Model has six phases; however, it's not a linear process but rather a recursive one in which the learner might revisit a previous stage to ask additional questions or organize information, as the need arises. Each phase involves critical thinking skills that empower young people to learn on their own and develop the thinking skills to be independent, lifelong learners. The phases are as follows: Connect: observe, experience, connect a subject to self and previous knowledge Wonder: predict, develop questions and hypotheses Investigate: find and evaluate information to answer questions, test hypotheses Construct: draw conclusions, arrive at new understandings Express: apply understandings to a new context, share learning with others Reflect: examine one's own learning and ask new questions (Stripling 2003, 8). Technology and, in particular, Web 2.0 tools and services can be used throughout the inquiry process to support the appropriate thinking skills. The key is to focus on student learning, not the Web 2.0 technology. The focus is on the phase(s) of inquiry at which students are concentrating and deciding which technology tool can best support the thinking processes and instructional strategies of that phase of inquiry. This increases the effectiveness of both the learning experience and the use of technology. An outline of the inquiry phases aligned with Web 2.0 technology tools and instructional strategies can be seen in Figure 2."

The maker movement and with it maker-centered learning brings new possibilities and challenges into the classroom. It has spawned makerspaces and students are busy designing and making products. The danger with all this frenzied making is that it is very easy to miss the point, to focus on the product and not the journey.  

"Bloom's taxonomy was never meant to be linear or sequential. The version I always knew was a pyramid: But as with the general flipped learning meme, if you look you can find plenty of examples dating back years. This looks like a flipped pyramid right here"

Why I Like Prezi In my life, I have given a *lot* of presentations. In high school, they were presentations on group projects. In university, they were presentations on research projects. At Google, they're presentations on how to use our APIs. When I first started giving presentations, I used Powerpoint, like everyone else. But I kept thinking there must be a better way, and I experimented with other options - flash interfaces, interactive Javascript apps. Then I discovered Prezi, and it has become my presentation tool of choice. Prezi is an online tool for creating presentations - but it's not just a Powerpoint clone, like the Zoho or Google offering. When you first create a Prezi, you're greeted with a blank canvas and a small toolbox. You can write text, insert images, and draw arrows. You can draw frames (visible or hidden) around bits of content, and then you can define a path from one frame to the next frame. That path is your presentation. It's like being able to draw your thoughts on a whiteboard, and then instructing a camera where to go and what to zoom into. It's a simple idea, but I love it. Here's why: It forces me to "shape" my presentation. A slide deck is always linear in form, with no obvious structure of ideas inside of it. Each of my Prezis has a structure, and each structure is different. The structure is visual, but it supports a conceptual structure. One structure might be 3 main ideas, with rows of ideas for each one. Another might be 1 main idea, with a circular branching of subideas. Having a structure helps me to have more of a point to my presentations, and to realize the core ideas of them. It makes it easy to go from brainstorming stage to presentation stage, all in the same tool. I can write a bunch of thoughts, insert some images, and easily move them around, cluster them, re-order them, etc. I can figure out the structure of my presentation by looking at what I have laid out, and seeing how they fit together. Some people do this

All the reasons I like and don't like Khan Academy videos....

Hundreds of videos on high school math/science. They also have a YouTube channel.

Tutoriales en Inglés de varios cursos

A site housing more than 3000 educational videos

lso see http://www.connectivism.ca/ and http://en.wikipedia.org/wiki/Connectivism_(learning_theory)

MEMOIRE à lire

Technology is helping teachers to expand beyond linear, text-based learning and to engage students who learn best in other ways. Its role in schools has evolved from a contained "computer class" into a versatile learning tool that could change how we demonstrate concepts, assign projects and assess progress.

"Problem: How do we break out of a linear mindset and develop three-dimensional teaching without getting weighed down by an immense burden of data collection?"

A wonderful download which allows users to create interactive non-linear stories which allow the reader to make choices about how the plot unfolds.

An important part of the role of any educator is that of planning learning sequences. Perhaps you are tasked with designing curriculum or more likely you are translating a mandatory curriculum into workable units of learning. The task is complex and there are multiple arrangements. The goal is to design units that connect students with learning in ways that are meaningful and relevant. A well-designed unit of learning fits seamlessly alongside other learning opportunities and the overall sequence of learning should match the learners developing expertise. As we plan units of learning we must consider a great variety of factors which impact the learning we design. Our knowledge of our students and where they are with their learning is crucial and a strong place to start. We also need to know what it is we are required to teach and have a grab bag of pedagogical moves that bring this content alive.

What are our assumptions about how students get research done in the humanities? How do those assumptions affect our instruction, and what really is our students' approach to research?

These are pretty cool and include mathematical solutions, a good warm up for class.

This activity is intended as an introduction to the concept of the angular momentum of a particle moving in a straight line.