Super easy PDF commenting for better collaborative reading and comprehension

In recent years lots of teachers would have spotted students developing the habit and tendency to skim read online and the shallow comprehension skills that follow. We constantly give students resources to read over to supporting their thinking and their understanding of case studies, yet many students will read too quickly and superficially without processing the information.

A lesson I did last week really changed my perspective on this, using a super simple PDF commenting trick in Google Drive. A colleague Sean McHugh spotted a few weeks ago that Google had added a comment function into any PDF you have stored in Google Drive. With a couple of quick clicks you can print an article off any website and save as a PDF and then save this into your Google Drive. You can then choose to share the PDF ‘with a the link’ and thus give the viewer the ability to comment on the document. You can click and see the explore the example below.

You can set this up as follows;

• Find your article online or find your saved PDF
• If you have an online article click to print but change destination to – Save as PDF
• Drag PDF into your Google Drive
• Click in the top right to share and then choose – Share so ‘Anyone with link can comment‘
• Then share this with your students, they can comment on individual words or top right to drag an area to comment.

At our school you can link directly from our Online Learning Platform ‘Teamie’ can it will sort the permissions for you. To save the craziness of an entire class commenting on one PDF best top copy and duplicate your file a couple of times and have smaller reading groups.

As an assessment trick, I asked them very specifically to look for definitions or examples of the concept we were studying in the article and to add a comment where they found them. I could scan the documents and see how they were going or add a comment to nudge them along.

Embed Web Content into a Teamie Assignment

Many teachers know that Teamie Assignments are a genuine example of tech that really does make the process of gathering student screen based work far more efficient than having students drop off content via a shared folder, or even worse, via email.

However, while the kinds of artifacts that are submitted to assignments are still dominated (understandably) by Google Docs and PDFs, assignments are just as effective at collating other forms of media: audio, image, video, slideshows, spreadsheets—pretty much any format that can be viewed in a web browser.

What many teachers don't realise is that students can embed internet 'Web 2.0' content to an Assignment as well, what does that mean? This would include anything like the following:

• YouTube Videos (that the student has uploaded)
• Padlet
• SoundCloud Audio
• Presentations like Prezi, Animoto, Haiku Deck, Slides.com
• Online Whiteboards like Google Drawings, RealtimeBoard, ShowMe, and others
• Mind Maps like MindMeister
• Maths/Physics models built by students from sites like Desmos et al
• If it's online, and it's interactive, chances are it can be embedded. 

I prefer to ask my students to submit their content at the start of the process; as embedded content is dynamic, I can see any changes that they make in real time, so this is a great way to be able to check in on it as it is in progress and to give feedback as it is in development.

Set up the Assignment

Bear in mind, the only change (if you're already using Assignments) here is required by the students, what you have to do as a teacher is no different to any other assignment, if anything, the main distinction is what you don't need to do.

1. Choose Text entry
2. Untick Files/Google Docs (so they don't get confused)
3. That's it.

Student Workflow

So what changes for the student? They work in the relevant website as normal, but they will need to embed the content to your assignment, as follows:

Embed?

Now, stay with me, it's worth it! Embedding can seem a little daunting at first, but trust me, it's not as techie as it looks. Most if not all of the kinds of sites mentioned above with have a 'share' option, and one of the share options will usually be to 'embed', when that is chosen, the site offers you a screed of computer gibberish, don't panic, all the students do is copy that, and paste it into Teamie and the rest is emagic. Trust me.

Here's an example of the kind of digital gibberish I'm talking about:

<iframe width="600" height="400" frameborder="0" src="https://www.mindmeister.com/maps/public_map_shell/992381377/area-of-knowledge?width=600&height=400&z=auto&t=M4DyiJO2IW&no_share=1&no_logo=1" scrolling="no" style="overflow: hidden; margin-bottom: 5px;">Your browser is not able to display frames. Please visit <a href="https://www.mindmeister.com/992381377/area-of-knowledge?t=M4DyiJO2IW" target="_blank">Area of Knowledge</a> on MindMeister.</iframe>

Once it's embedded, you can view the content right from within Teamie, where you can also leave comments in the side panel, use a rubric, or/and assign a grade, just as you would with any other submission.

Grab the code:

An example of embed code from a YouTube video

Here's a couple of examples of where students can grab embed codes from Padlet and MindMeister.:

Submit the embed code to the Assignment

I've broken this down into a step by step break down, you can always show/share this post with your class if they need assistance the first time:

Student view

Once they have copied the embed code, the click on the link symbol.

(Some will just paste it into the text field, [you know who!] that won't work)

Clicking on the link symbol pops up the embed window, they just paste in the embed code, and click Insert.

Then they will see their web content load in their submission window, so they can be sure it all looks hunky dory, before they choose Submit for evaluation. 

Teacher submission view

This is how it looks as a teacher, you can view the content, and leave feedback (written or spoken) as usual. 

Here's an example of how you can interact/navigate the content the student has embedded if it is a presentation, or interactive model for example. 

Posting tips for better formative assessment

The Online Learning Platform in Middle and High School is our key tool to both share resources and communicate with students.

The post option has lots of hidden tricks allowing you to collect student responses, develop polls for students to vote on or share Google Docs. Have an explore through the slides below for examples to explore and try with your class.

Digital Approaches to Activating Prior Knowledge

In our staff meeting we explored ways that technology can really enhance our ability to activate and assess prior knowledge and to introduce concepts. We all have approaches to pre-assess students understanding some of which involve technology.

There are specific digital tools when used a part of our repertoire can amplify the process of activating knowledge. In clever ways they help assessment, monitor, track and provide the data to help us differentiate learning in the face-to-face classroom. Overtime we should be comfortable with the following and use them to help assess and support differentiation.

• Teamie Discussions - tutorial and examples
• EdPuzzle and YouTube - tutorial
• Padlet - tutorial and example
• Google Forms and self-marking - tutorial

If you teach Maths there is an amazing range of specific adaptive tools at your fingertips. (MangaHigh, Khan Academy, My iMaths) 

First steps:

We all provide students with materials to look over before class, such as unit pages in Teamie, chapters of a textbook or to watch a YouTube video. We also use formative assessment tricks at beginning of lessons such as questioning, mini-whiteboards to connect back to prior knowledge.

Isnt this enough?

Well, yes but with a few tweaks if can be significantly amplified. If we want students to be watch a video or to read an article we should be setting them some questions to focus their thinking.

Technology can really help with this process by letting you

• Track and monitor if students have actually watched or read the material
• Automate collecting responses from the students
• Help you see a collated view of responses and flip between questions or students.

Challenges and thoughts:

Timing:

A few table groups spoke about the timeliness of pre-assessments. If you really wish to differentiate you need adequate time to analyse how students have performed.  For instance if you are beginning to explore a new concept, students can engage with a homework task in the days prior but does this give you time to modify what you were planning to do?

Participation:

Suppose instead of having a mini-lesson during class time explaining a concept, that you record yourself with a document camera and have students engage with this ahead of class. What if only half of the students look at the resource? Do you repeat yourself or split the class into groups. Overtime I would suggest that students understand why you are exploring this approach and help them see it as part of the routine and to be prepared. We also need to do something in the first part of the class that explicitly refers back to the homework and references the prior knowledge so they understand how it connects to the learning. If they come to class prepared and yet that work is not referenced by the teacher they will be less willing to do the pre-assessment next time.

Time: 

To be organised in advance and to preset some homework preparation requires some effort. If you also want to create your own material to support the course it can be extremely time consuming.

• Start with using a Teamie post to ask a simple question about a resource. This can be a virtual plenary to your lesson. Lock the comment if you don’t want students to see each others comments and then unlock when class begins and get them to read or reply to each others responses.
• Take an existing good resource or video and repurpose using EdPuzzle.
• If the approach works explore making your own resource. Try a screencast on your mac using Quicktime, or borrow a document camera to record a mini-lesson.

Presentations - click to end to see department ideas

Tech Enhanced MindMaps

Mindmap Methodology via Examtime

Mind maps are such flexible, powerful ways to represent learning, and yet I rarely see them used. I think one thing that probably puts people off is they think they might as well just use paper, and I too once thought this... I was wrong.

Shifting mind maps to a screen drastically changes what you can do with them—so when you ask students to mind map on a screen, don't just ask them to replace what they can do just as well with paper mind maps—use SAMMS to transform them, so they are used in ways that can’t be replicated using static media like paper:

Situated Creativity

Online or 'cloud based' mind maps can be worked on in groups, synchronously and asynchronously - collaboratively or cooperatively, a seamless blend of classwork/homework. This means that rather than the tedium of teachers collecting in the work regularly to 'mark' the can view any of them, at any time, anywhere.

Accessibility

Smart web search for images to illustrate stages - combine with smart use of unit keywords (process, source) to really empower inquiry, eg students can clarify the understanding of essential words and terms by adding images that to illustrate (not just decorate) their maps; eg students learning about the process of how chocolate is manufactures can add an image that illustrates “chocolate process” or ‘chocolate source” to amplify the meaning of key ideas with images, and even videos. Terms that are ambiguous or confusing for the student can include a simple definition (in Google just type define: ). The treasure trove of knowledge that is the internet becomes a cornucopia of content to simple and easily make a mind map a glorious representation of that students expanding understanding.

Mutability

This is probably the most powerful enhancement of mind mapping on a screen. The mind map can be evolve, so it a form of assessment I call an ‘ongoingative’, in that it starts as a pre-assessment, gets used formatively throughout the unit, and ends up becoming a summative assessment. A much more natural, nonlinear, ‘organic’ way to organise ideas—starting very simply with initial ideas and understanding (pre-assessment), then revisiting the same mindmap regularly (once a week?) taking screenshots of the changes/evolution over the course of the unit.* Another factor here is that, unlike with the paper equivalent, ideas can easily be dragged and dropped, disconnected and reconnected, moved and removed as the overall map becomes more focused and as a clear structure emerges. Also, on the screen there is no need to be confined to the limits of a page, they can allow their mind map to expand in any direction their thinking takes them. The examples below (Rewind, Review, Reflect) shows how this works in Mind Meister using the history tool to review a process that took weeks in minutes.

Multimodality

At the end of the unit, the screen shots of the mind maps over the previous weeks can be turned into a screencast with the student reflecting on their learning. In iOS Puppet EDU makes this very easy, or use Quicktime to narrate a sequence of screenshots. Alternatively kids could use PicCollage to make a montage of key screenshots of a LJ post, with some text to summarise their learning? Mind maps like Mind Meister incorporate a Prezi like presentation mode, that allows the students to guide the audience/teacher through the elements that are most essential, they can even add a narration using an app like QuickTime - see the 'Reflect, Present, Narrate...' example below.

Socially Networked Activity

Mid unit reflection, kids can share their on going work in a multiplicity of ways, from sharing their mind map with their peers to facilitate collaboration or cooperation, or as simple as posting a screen capture of the most recent version of their mind map to share with the class, either via a class online space, or a Padlet et cetera. Peer to peer feedback, mediated by the teacher.

An Example from Grade 3

Michael Wheeler worked though a unit with his class that really exemplifies how well this approach works. Over the course of several weeks the mind map/concept map became a repository for recording and reflecting on their learning experiences throughout the unit; special guests, website info, BrainPop activities and videos, educational interactives—all summarised and and mapped in relation to three essential understandings. 

Rewind, Review, Reflect

This video powerfully demonstrates the 'history' tool, which effectively allows the students to rewind the map, and review the entire process of learning and inquiry captured over the preceding weeks.

Reflect, Present, Narrate...

The screen captures below demonstrate the final stage of the project, where each student was able to turn this formative record of learning into a summative presentation with a few clicks, this was then used to record a screen narration where the students reflected upon their work, by summing up the overarching understandings from the unit, not just narrating the text on the screen.

Grade 5

Across the Curriculum

Mind maps can be used for:

• problem solving - WWWHWW
• outline/framework design
• structure/relationship representations
• marriage of words and visuals
• condensing material into a concise and memorable format
• Project management 
• Book/film/unit summaries
• Word study - spellings, forms, etymology, patterns/conventions/connections
• Brainstorming (ideation)
• Knowledge management (including pre assessment) 
• Planning 
• Ongoingatives 
• Connections between concepts, ideas, knowledge, skills. 
• Maths strategy representations and connections, and/or process stages/steps

Concept maps vs Mind Maps

Technically mind maps differ from concept maps in that mind maps focus on only one word or idea, whereas concept maps connect multiple words or ideas. Also, concept maps typically have text labels on their connecting lines/arms. Mind maps are based on radial hierarchies and tree structures denoting relationships with a central governing concept, whereas concept maps are based on connections between concepts in more diverse patterns. A concept map is a way of representing relationships between ideas, images, or words. In a concept map, each word or phrase is connected to another and linked back to the original idea, word or phrase. Concept maps are a way to develop logical thinking by revealing connections and helping students see how individual ideas form a larger whole.

A Mind map reflects what you think about a single topic, which can focus group brainstorming. A Concept maps are more free form, as multiple hubs and clusters can be created, unlike mind maps which fix on a single conceptual centre. The reality is that I doubt many people really care about the semantic differences, my mind maps also exploit the features of concept maps, or maybe it's vice versa? The point is that this model is versatile and dynamic, it can be whatever you want it to be. This is a sentiment clearly echoed by a passionate advocate of this way of working, Ken Robinson; who gives the following, practical advice:

There is no wrong way to create a mind map as long as it makes sense to you. Mind mapping offers you a lot of creative freedom and can open whole new ways if thinking. Here are some of the main principles you to keep in mind as you practice mind mapping: 

• Use single words or very short phrases for each line. Remember, this is a visual as much as a verbal system.
• Form organic connections.
• Use a variety of colours throughout the mind map. Colours give the map visual appeal and they help to identify different levels and types of ideas."
• Each keyword or image should have its own line. 

Finding Your Element, pp 11-12

Key Concept Mind Maps

No need to look far for the a set of powerful single words that can form the basis of a concept map in any curricular area, some or all this essential 8, I call, '2Fs, 3Cs, 2Rs and 1P' are all you need:

• form - define it, what is it?
• function - how does it work?
• causation - why is it like this?
• change - how is it changing?
• connections - how is it similar to other things?
• responsibility - what do you/we need to do about it?
• reflection - how do you know what you think you know is true?
• perspective - what are the possible points of view?

Key concept starters in Popplet

Key Concepts in Mind Meister

Some Suggested Tools

For the reasons outlined in this post, mind mapping tools that are situated online make the most sense, top of my list for these is Popplet, followed closely by MindMeister, which has the added advantage of working with GApps, although it is more suited to older students, as you can see in the examples above, it works well with students as young as grade 3 as well.

Further Reading

MindMeister have published a great post on the benefits of mind mapping, "From Collecting Dots to Connecting Dots": Using Mind Maps to Improve Memory and Learning" that is well worth a read. It provides a short overview of principles of memory and learning and effective learning techniques, and demonstrates how students can use mind maps to become more effective learners.

*Mind maps like Popplet and Mindmeister include history tools that literally allow you to rewind to the start of the process and play it back.

Not another Test/Rubric...?

http://www.hippoquotes.com/assessing-quotes

Assessment drives everything educational. So, not surprisingly, assessment is the biggest factor in terms of planning the use of tech in effective ways. This means that it's critical to ensure that we use a varied range of assessment strategies, which is where I find a surprising lack of options.

Why do so many teachers assume that only rubrics and tests are suitable for assessment? Sure they have their place but only within a suite of assessment strategies...

I don't mean to denigrate any particular assessment tool—clearly rubrics and tests can be effective assessment tools, but when they dominate, they have an unfortunate tendency to diminish the importance and efficacy of all of the other tools that are available. It is depressingly common to me that in virtually any educational context (classroom, conference, online) when the conversation inevitably turns to assessment, the question seems to default to, 'what rubric or test will we use?' rather than any awareness that there are a plethora of other tools and strategies that could be just as effective if not more so.

Do less, but do it better.

Now of course it's highly possible that teachers are unaware of the wider range of assessment tools they use effectively almost everyday, such as the ad hoc/informal conversations (conferences in the jargon) with students every day, to spirited class debates (not lectures) that utlise skilful Socratic strategies, which are in and of themselves valid assessment tools. The problem is that I think these are seen as somehow inferior to a "proper" test/rubric. All this does is create a lose/lose scenario for the teacher and the student.  Rather than focusing on tests and rubrics, wouldn't it be better for everyone if we were to embrace a much wider tool kit when it comes to assessment? To see them all as valid/powerful, maybe that conversation/conference was so effective that adding a rubric or a test is not only unnecessary but possibly even counter productive?

I think if you had asked most teachers why it is that they rely so strongly upon rubrics and tests as opposed to all of the other powerful forms of assessment, I think you would find that they would point to one sad fact; they feel they need paper with marks on, that they can attach a grade to, so they  can point to it as being hard evidence of their assessment judgement. While there is clearly a place for this kind of formal (usually summative) judgement, in my experience it is far too frequent and far too common. Teachers could do themselves a favour and do their students a favour by focusing on the goal of learning rather than the need to have a hard artefact to present evidence of every stage of progress.

What if instead we were to focus on the goal, that is, as long as the assessment tools you use allow you to provide effective individual feedback to the student and enables them to progress in their learning point where they are improving compare to their previous level of competence (ipsative assessment), then the goal has been achieved! So why not work a little smarter and use a range of assessment tools that are a far more varied. In so doing you create a classroom environment that is more dynamic, and far more effective for both the teacher and the student.

So what does this have to do with tech?

From my perspective, a classroom that exploits a wide range of assessment tools is a much richer environment within which to be able to integrate digital tools that can truly enhance and transform the way teachers teach and the way the students learn, and demonstrate the extent to which they have mastered the skills, knowledge and understanding that is truly the point, not just in ways that can be measured quantitatively on another test or a rubric. You don't have to look much further than an early childhood classroom to see this in action. Why? One thing their students can't do is demonstrate their understanding via tests or rubrics!

I've always found this matrix from the PYP to be particularly useful to illustrate this, although you may be surprised by the omission of tests from this grid, I believe they (somewhat disparagingly?) categorise these as 'check lists':

From Making the PYP Happen (IBO)

From the 'old days'—not new, but not common either.

If you really insist on using rubrics, a nice way to use them is for the teacher to define a central standard (eg a level 3 on a 5 point scale) and then ask the students to define and justify the level they feel their work sits in comparison to that, with examples.

More reading on the problems with rubrics, if you're so inclined:

https://www.diigo.com/user/mistermchugh/rubrics 

http://www.alfiekohn.org/article/trouble-rubrics/

http://www.ascd.org/publications/educational-leadership/

http://faculty.ccp.edu/dept/viewpoints/w06v7n2/rubrics1.htm

Screencasts, Misconceptions & the Benefits of Reflection

Explain Everything & Doodlecast Pro - Fantastic Screencasting Apps

Screencasts are amongst some of the most powerful and potentially transformational digital tools we have, and it's great to seeing them being used regularly, whether on the Mac with Quicktime, or arguably more easily, on an iPad with one of the plethora of screencasting Apps that are available.

 A digital recording of activity displayed on a screen

Screencasts are also a powerful way to get students to articulate their thinking, even if the only person who ever gets to see the screencast is themselves, their parents, or maybe a friend.


ScreenChomp Subtraction SMc from UWC South East Asia on Vimeo.

"students learn more deeply from reading a science text if they are prompted to explain the material to themselves aloud as they read." p162 (My emphasis)

Pellegrino J W, & Hilton M L (Eds) (2013). Education for life and work: Developing transferable knowledge and skills in the 21st century. National Academies Press. 

Reflection is critical

Cited in Black & Wiliam's pivotal 'Assessment and Classroom Learning' (1998),  a review of European research by Elshout-Mohr (1994) pointed out both that students are often unwilling to give up misunderstandings—they need to be convinced through discussion which promotes their own reflection on their thinking—and also that if a student cannot plan and carry out systematic remedial learning work for himself, he or she will not be able to make use of good formative feedback. Both of these indicate that the kind of self-assessment fundamental to reflection is essential. Similarly, Hattie et al (1996) argue that direct teaching of study skills to students without attention to reflective, meta-cognitive, development may well be pointless. Pointless.

A more recent study entitled 'Learning by Thinking' (Stefano et al, 2014) focuses on the importance of reflection as one of critical components of learning; reflection as "the intentional attempt to synthesize, abstract, and articulate the key lessons taught by experience".  In short, if you want your students to retain what they have learned long term, you have make time for students to reflect on what they have learned (not just what they have done) in fact far from bring a 'maybe if there's time' option, this is something you can't afford for your student's NOT to do.

"... individual learning is enhanced by deliberately focusing on thinking about what one has been doing. [...] Further, we find that the effect of reflection on learning is mediated by greater perceived self-efficacy. Together, our results reveal reflection to be a powerful mechanism behind learning, confirming the words of American philosopher, psychologist, and educational reformer John Dewey: “We do not learn from experience...we learn from reflecting on experience.” (p29)

But,

Yes, you knew there was a but coming.

I see them used only for summative and not formative assessment, where the student creates a wonderful screencast that demonstrates mastery of the content... Which just leaves me wondering, well where was the learning? Did they already know how to do this? If not, where is the 'journey', you see I find teachers habitually orient to capturing summative demonstrations but rarely, if ever formative ones, specifically capturing mistakes, misconceptions, errors. This seems to 'run against the grain' of  teaching instinct.

Worse still, if a student 'gets it wrong' the tendency is it to ask them to scrap it and try again.

The truth is, misconceptions are a fantastic opportunity for a great lesson using a two stage screencast, stage one, the misconception, duplicate to another and overwrite with a correction. As John Hattie explains:

"A safe environment for the learner (and for the teacher) is an environment where error is welcomed and fostered – because we learn so much from errors and from the feedback that then accrues from going in the wrong direction or not going sufficiently fluently in the right direction." p23  (My emphasis)

Hattie J (2013). Visible learning: A synthesis of over 800 meta-analyses relating to achievement. Routledge.

All you need is to set an activity that is focused on a common misconception that you know students often have, here's an example adapted from a recent article by Jan Chappuis Adapted from "Thoughtful Assessment with the Learner in Mind" (Educational Leadership, March 2014)

"The challenge with misconceptions is to correctly identify them and then plan lessons to dislodge them. Misconceptions are stubborn: They can't be corrected by papering over them. To illustrate, let's look at a misconception that's common in middle school science. Newton's first law of motion states that a force is not needed to keep an object in motion, yet many students (and adults) will tell you that if an object is in motion, it will require a force to stay in motion, which seems like common sense. (Aristotle thought this, by the way.) Memorizing the principles of the first law—“an object at rest will stay at rest” and “an object will continue with constant velocity unless acted on by an unbalanced force”—is generally not enough to counter what our senses tell us about force and motion: If you want a book to keep moving across a table, you have to keep pushing it." 

So, having given the class Newton's first law of motion, the teacher could ask the students to create a screencast that explains the forces that are in motion in order for them to, for example, make a ball roll slowly along a floor, and to describe the forces are that in action that could affect it and why...

While the students are engaged in this activity, the teacher is actively monitoring, as a keen observer, the teacher is constantly watching what students do, looking for clues about their learning progress, and asking for input from students about their status, what have they learned, and more importantly what do they need to unlearn. The teacher walks among their students as they work, listening for clues about their understanding, asking questions that probe their thinking... Looking for any evidence of misconceptions that will fuel the next intervention or episode of teaching. Having established the extent of understanding, the next steps will be to teach to correct. Depending on the extent of the misunderstanding, correcting this could be a 10 minute clarification, or maybe require a series of lessons and activities designed to explore this issue thoroughly.

Following this, the teacher asks the students, to continue their screencast, not to delete or amend the initial misunderstanding, but to continue the learning 'story', to identify the misconception and contrast it with the correct interpretation.

"Finally, when students are able to do so, have them explain why the misconception is incorrect. Misconceptions, whether in science, social studies, mathematics, language arts, or any other discipline, require an intentional approach tailored to the nature of the misconception because the teaching challenge is to cause  conceptual change—to have students give up the inaccurate conception they currently hold in favor of an accurate one." p24

Another but...

But this leaves another problem; what do you do with the 20 to 30 short videos? 

Watching them all could take maybe an hour, and that's without feedback, that could be time worth spending considering the richness of the data it contains, arguably a better way to spend your time than 'marking'. Alternatives include, peer assessment, or 'P2P' (Pupil 2 Pupil). Name stick random checkups, choose 5 to view carefully (don't tell them who it will be, use name sticks near the end of the lesson).

What do you do with the kids who on the first attempt were able to show that they understood the situation well, no misconceptions evident? 

Well the short answer is differentiate, other suggestions could include...  Promote them to 'teacher assistants', as 'assistants' they are invaluable in helping determine whether the 'corrected' screencasts of the other students are actually really correct. Challenge them to find another misconception to set the class (in the same area of learning) see if it can 'trick' the class? Create another screencast to explain why the misconception exists?

7 powerful ways to use screencasts

Black and Wiliam describe 7 indicators of understanding in their seminal work, Assessment and Classroom Learning (1998), and it just so happens these exact same indicators are fantastic ways to focus the ways you ask your students to make screencasts.

These indicators of understanding are especially relevant in terms of the kinds of evidence that screencasting is uniquely equipped to capture, ask students to use screencasts to make their learning visible - explicit by creating a screencast that models the following: extension, modification, pattern finding, shortcuts, explanation.

Tacit indicators will be persistence and enthusiasm.

"After studying and discussing video extracts and transcripts of lessons, seven 'indicators of understanding' emerged [...] as a series of potential clues to the level of the student's understanding,

1. extension of a concept: students who have understood something often take the idea further on their own initiative; 
2. making modifications to a pattern: students who understand, spontaneously start making their own modifications, while those who don't understand imitate or follow rules; 
3. using processes in a different context: students who have understood a particular idea often start seeing the same patterns elsewhere; 
4. using shortcuts: only students who are sure of the 'big picture' can short-cut a procedure so that thinking up or using a short-cut is taken as evidence of understanding; 
5. ability to explain: students who have understood something are usually able to explain it;
   
   Tacit indicators
6. ability to focus attention: persistence on a task is taken as a sign of understanding."
7. changes in demeanour: students who had understood were 'bright-eyed' while those who had not appeared half-hearted; 

(p 57)

I'd argue that the reverse is true as well, namely, if a student does not show any of these indications, then it is likely they don't understand it, so capture their attempt, teach into their struggle, and then get them to capture a later more successful attempt.

SAMMS - Transformation with Tech
Social: A great way to manage a class load of videos such as those generated by a class full of students creating screencasts is to ask the students to post them on a class online platform, such as a Google Site or blog.

Access: They can search for clarification on specific elements they find confusing, maybe particular vocabulary, or inspiration for their demonstration.

Mutability: In response to feedback, students can easily duplicate and revise their screencast and post a second screencast that shows clear evidence that relevant criticisms have been resolved.

Multimodality: Of course this entire medium is multimodal, combining image, drawing, audio and video.

Socially Network & Situate: Now it is online, you can facilitate a P2P homelearn* activity. Assign assessment buddies to feedback on each others screencasts at home, of course the teacher can now easily monitor the quality of these online interactions, and interject, support, clarify, redirect as necessary.

Looking for inspiration for misconceptions? Google it... "common misconceptions students have" or something similar, will give you plenty of material to get you started.

For example ... http://www.apa.org/education/k12/alternative-conceptions.aspx 

*as opposed to 'homework'.


Paul Black & Dylan Wiliam (1998): Assessment and Classroom Learning, Assessment in Education: Principles, Policy & Practice, 5:1, 7-74

Elshout-Mohr M (1994). Feedback in self-instruction, European Education, 26, pp. 58-73.


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