Learning Styles or Learning Preferences?

Another great article from Faculty Focus. I think Larry Spence reinforces what I have always believed. It really doesn't matter what "style" we identify - or how we tag the learning preference.  What really matters is that each individual becomes aware of different strategies for learning.  We need to arm individuals with a weaponry of strategies, and teach them when / how to tactically employ them.  I think the best approach is still hearkening back to Malcolm KNowles theory of andragogy and self-directed learning. Teach learners to become true self-directed learners and success will increase.

December 6, 2012

Getting Over Learning Styles

By: Larry D. Spence, PhD in Learning Styles

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There is a landfill of studies—more than 3,000 articles and 600 books. If you Google “learning styles” you will get 9.7 million hits in 0.16 seconds. “Learning styles workshops” produces 7.8 million hits and even “critiques of learning styles” garners 460,000 items. By the numbers of instruments, handbooks, and workshops advertised online, learning styles must be a sizable industry. But after diving into the pile, my mind was full of grit and cynicism. A zealous quest has created claims and theories so bad they aren’t even wrong. There had to be something useful in all this effort or despair would settle over me like so much dust.
The periodic critiques of the research make the same points. 1) We don’t know what learning styles are. Researchers haven’t agreed on whether they are attributes, preferences, habits, strategies, or biological traits. We don’t know if they are cognitive, neurological, psychological, or situational. 2) The reliability and validity of the many instruments created to measure styles are regularly challenged. 3) No convincing data links learning styles to improved learning. Since the 1970s, critics have been making these points. They pretty much conclude that if you want to predict achievement for a particular learning style or match a teaching method to a learning style, you would have as much chance of success using signs of the zodiac.
But I did find some jewels buried in the landfill. Learning style ideas grew out of classroom wisdom. Given any pedagogical effort, some students learn and some do not. Every teacher encounters students who seem to learn in unexpected ways. Every student sometimes gets stumped by methods that work for everyone else. Thus 40-plus years of self-serving replications and furious critiques make abundantly clear that people learn in different ways. Neuroscientists agree that every brain is unique—more singular in structure than DNA or fingerprints.
We haven’t figured out how to deal with this diversity in learning. We decide what to do in the classroom based on crude averages or on the techniques that we like or do best, leaving many students to flounder or figure out how to learn on their own.
To paraphrase artificial intelligence pioneer Marvin Minsky, there is no such thing as a typical student because each brain contains many different kinds and combinations of resources. Neuroscience research suggests that the brain is not one general learning system but consists of many specialized modules developed over eons of evolution. While those modules vary, their network connections differ even more depending on genetics and experience. Thus every student brings to the classroom wiring, experiences, assumptions, and hidden semi-autonomous processes that we call euphemistically “prior knowledge.”
For example: Some students do well by starting with abstractions and working down to the concrete details. Others prefer to begin with examples and generalize abstractions. Some learn in brief spurts and others in extended periods. Students may do well by solving many easy problems while others thrive by struggling with a few hard ones. Success promotes learning in some students while failure works better for others. Some students learn impulsively, leaping into complex problems and flailing until they get a handle, while other take their time and reconnoiter carefully before proceeding to solutions. We aspire to teach in ways that promote learning, but any rule we set makes it easy for some and impossible for others.
Is there a way to cope with this bewildering array of learning options? Suppose we acknowledged that the most important work in the classroom is the work of learning that students do. Since the research on learning styles has failed to confirm that how we present material can improve student learning, maybe we should focus on what students do with course materials and think of our role more as managing a work team than transmitting metaphorical “content.”
Muska Mosston once differentiated teaching types by who made the learning decisions—teacher or student. He conceived a spectrum that ran from command, where instructors make all the decisions, through problem solving, where students make most decisions, to self-directed learning, where students make all decisions. Mosston’s ideas came from coaching. We often think of exemplary athletic performances as automatic, but that is an oversimplification. Repetition means predictability, and that gives advantage to your opponent. Elite players learn to adjust their performance to ongoing conditions. Athletes must become self-coaching to make quality decisions in the rapid changes of games.
One of the outcomes of students making decisions about how they will learn and what standards of performance they will strive for is customization. Students do the customization within the teachers’ framework. Teachers don’t attempt to do the impossible—predict students’ learning variations and design appropriate exercises. The teaching task becomes how to design a classroom situation that maximizes students’ opportunities to choose and to learn from the results of those choices.
Teachers then can focus on their most creative work—observing students’ actions and interceding to correct them. What do learners do with course materials? How do they tackle problems? What assumptions do they use? What do they do when they fail? Answers to those questions would most definitely improve our teaching.
A bit surprised, I ended up leaving the landfill hopeful.

Excerpted from Getting Over Learning Styles, The Teaching Professor, 25.6

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From faculty focus

Get Visual: A Technique for Improving Student Writing

By: Deborah Miller Fox in Effective Teaching Strategies

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One of the ongoing challenges for my composition students is the task of narrowing a broad, generalized topic into a more particular, focused topic for a short research essay. To help them develop this skill, I now prescribe a broad topic for everyone to use in the first research essay. Over several class sessions, we work collaboratively to explore the general topic, identify more particular subtopics, and develop research strategies to investigate these subtopics as possible subject matter.
This semester I required all of the students to write about our city, Anderson, Indiana. In addition to all of the other “process” assignments I use to teach my students inquiry, research strategies and drafting techniques, I recently added an art project to the mix. The assignment was simple: create a poster that gives a “face” to the city of Anderson. I told the students to be creative in their design and to represent visually the key discoveries they’ve made about their specialized topics. I also encouraged them to suggest the focus and purpose for their essay through the content or design of the poster. I promised to give each student 30 seconds to offer comments about his or her poster to the class.
In “Design Principles for Visual Communication,” Maneesh Agrawala, Wilmot Li and Floraine Berthouzoz insist that communication through visual images is “fundamental to the process of exploring concepts and disseminating information.” Because I teach writing, I tend to be preoccupied primarily with discovery and communication through language. However, the liberal arts academy in which I teach reminds me that the relationship between the humanities, the sciences and the arts is intimate and profound. “The most effective visualizations capitalize on the human facility for processing visual information, thereby improving comprehension, memory, and inference” (Agrawala, Li and Floraine 60). That’s exactly what I was trying to accomplish with my students: capitalize on their ability to “comprehend” their own discoveries and to communicate those discoveries and rhetorical ambitions to an audience clearly.
The posters students created in response to the assignment were impressive—not in their artistic design but in their clarity. Nearly every student was able to articulate an appropriately narrow focus AND a specific purpose for the essay project. Making the poster seemed to help them identify the key ideas or categories of information they would include in the paper.
Using words, symbols, clip art, photographs and drawings (some very crude, some skillful), the students successfully identified relationships among the bodies of information or ideas they had generated through research and exploratory writing. Many of the students even reflected on their research process in their comments about the poster, using phrases like “I thought X was true about Anderson, but I discovered . . .” or “I think readers would be surprised to learn X about this city . . .” or “My goal for the essay is to persuade readers that . . . .”. Though I gave specific instructions for the poster, I gave no specific instructions for the commentary. The students’ statements suggested to me that the act of translating ideas and information into a visual “essay” helped them take control of their own writing goals.
For the next essay, I plan to use this poster technique in lieu of a traditional outline. Organizing content visually and symbolically may be just the trick to helping student “comprehend” a logical structure for their arguments.
Reference: Agrawala, Maneesh, Wilmot Li and Floraine Berthouzoz. “Design Principles for Visual Communication.” Communications of the ACM 54.4 (2011): 60-69. Academic Search
Premier. Web. 3 Oct. 2012.
Deborah Miller Fox is professor of composition, creative writing and literature at Anderson University, a liberal arts college in central Indiana.

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Tags: college writing assignments, designing effective writing assignments, improving student writing skills, student writing, writing assignment strategies, writing assignments

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Faculty Focus -Deep vs. Surface Learning

November 19, 2012

Deep Learning vs. Surface Learning: Getting Students to Understand the Difference

By: Maryellen Weimer, PhD in Teaching Professor Blog

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Sometimes our understanding of deep learning isn’t all that deep. Typically, it’s defined by what it is not. It’s not memorizing only to forget and it’s not reciting or regurgitating what really isn’t understood and can’t be applied. The essence of deep learning is understanding—true knowing. That’s a good start but it doesn’t do much to help students see the difference between deep and surface learning or to help persuade them that one is preferable to the other.
Those differences are further obscured and rendered unimportant when teachers use superficial measures (e.g. multiple-choice questions that test recall) to assess understanding. Why do students memorize isolated facts that they don’t really understand? Because, in many courses, that approach has rewarded them with good or at least decent grades. Until teachers stop relying on questions that can be answered with details plucked from short-term memory, there isn’t much chance that students will opt for the deep learning approaches.
Most teachers (especially those who read a blog like this) recognize that test formats directly affect the choice of study strategies. We are committed to preparing questions that require higher level thinking skills. Our students discover they can’t answer those questions with the easy information bits they’ve memorized and so they start studying differently. The problem is that without teacher guidance, students end up selecting deep learning strategies more by accident and less by design. That challenge is answered by knowing what constitutes a deep learning strategy.
In an article reporting on the success of certain test question formats to promote higher-level thinking skills, faculty researcher Kathrin Stanger-Hall includes a list of study strategies characteristic of surface and deep learning. Because students can be physically active (doing things) but without much cognitive involvement, her list differentiates between cognitively passive learning behaviors and cognitively active ones. She includes references to the literature justifying this distinction. Below are some samples from each list. The full list can be accessed via this article: www.lifescied.org/content/11/3/294.full
Cognitively passive learning behaviors (surface learning approaches)
I came to class.
I reviewed my class notes.
I made index cards.
I highlighted the text.
Cognitively active learning behaviors (deep learning approaches)
I wrote my own study questions.
I tried to figure out the answer before looking it up.
I closed my notes and tested how much I remembered.
I broke down complex processes step-by-step.
Lists that are this behaviorally focused do oversimplify complex processes like deep learning, but they are still enormously helpful at making clear what deep learning might look like when you try to do it. Researcher Stanger-Hall included both kinds of behaviors on a survey that she had students complete at the beginning, during and at the end of the course. Her students identified which of the behaviors they were using as they prepared for course exams. It’s a creative assessment technique she used to document whether having to answer some test questions not formatted as multiple-choice questions changed the approaches students said they were using to study. Her data show that it did. (Look for highlights from this study in an article in the December issue of The Teaching Professor.) Not only did students in the experimental group use more of the deep learning approaches, but their exam scores were significantly better than those in the control group. When you can show students that certain approaches to studying improve exam scores, you’ve given them a compelling reason to try them out.
A final thought
Maybe I’ve been writing this blog for too long. I’m starting to repeat points made in previous posts. But it is terribly important that in explicit and concerted ways we make students aware of themselves as learners. We must regularly ask, not only “What are you learning?” but “How are you learning?” We must confront them with the effectiveness (more often ineffectiveness) of their approaches. We must offer alternatives and then challenge students to test the efficacy of those approaches. We can tell them the alternatives work better but they will be convinced if they discover that for themselves.
Reference: Stanger-Hall, K. F. (2012). Multiple-choice exams: An obstacle for higher-level thinking in introductory science classes. Cell Biology Education—Life Sciences Education, 11 (3), 294-306.

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November 13, 2012

A New Way to Help Students Learn Course Vocabulary

By: Maryellen Weimer, PhD in Effective Teaching Strategies

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Most college students struggle with the vocabulary of our disciplines. In their various electronic exchanges, they do not use a lot of multisyllabic, difficult-to-pronounce words. And virtually all college courses are vocabulary rich—unfamiliar words abound. Most students know that the new vocabulary in a course is important. They use flash cards and other methods to help them memorize the words and their meanings for their exams. Two days later, the words and their meanings are gone.
Word Sort is a strategy that helps students learn and better remember new vocabulary. Students work in small groups, with each group given an envelope containing key terms on separate slips of paper. Students are instructed to discuss what they think the words mean and then organize them into different categories based on what they think the relationships among the words might be. The strategy was developed for use in science courses, where terms have more precise meanings and fit more readily into categories. Students do this initial sort before reading about the terms or hearing them defined and discussed in lecture. After exposure to the words in the text or lecture, students get back into their groups and re-sort the words, comparing their new arrangements with the ones they first constructed.
A lot of iterations of the basic strategy can be used. For example, individual students can be given the collection of terms and told to define and relate them after having done the reading as a homework assignment. Before turning their work in for some modest number of points, students might share with other students in a small group what they’ve done. Or the instructor might use a particularly good categorization in a final review of the material or position that chunk of content with what’s to be learned next.
As might be expected, some students (in this article it was a small group) object to the approach. These are the students who think that the instructor should just tell them the definitions and their relationships. Having to figure it out for themselves means that the students are doing the work the teacher should be doing. What these students fail to understand is that the process of discussing—saying the words aloud and using them in sentences—makes the words more familiar and therefore easier to remember. Exploring how the words relate to each other means that the students are building a framework that puts the words in context, also making the words easier to remember in both the short and long terms.
If students work with the terms and their relationships before being given their definitions and relationships, they are forced to draw on their prior knowledge and experience. Students discover that they often do know something about the terms and their relationships, and teachers need to include more activities in courses that challenge students to draw on their prior knowledge. Students do not arrive in college courses as blank slates—they have taken (in this case) science courses previously. That tasks like these challenge students is a good thing. Students benefit when they are put in situations where figuring out answers is up to them.
Reference: Nixon, S. and Fishback, J. (2009). Enhancing comprehension and retention of vocabulary concepts through small-group discussion: Probing for connections among key terms. Journal of College Science Teaching, May/June, 18-21.

Reprinted from Word Sort: An Active Learning, Critical-Thinking Strategy, The Teaching Professor, 23.10 (2009): 4.

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Tags: active learning, active-learning strategies, critical thinking skills, Effective Teaching Strategies, study skills, teaching tips

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Teaching & Learning - Brain-Based Online Learning Design - Magna Publications

Teaching & Learning - Brain-Based Online Learning Design - Magna Publications
Great article on brain-based learning design

Abreena Tompkins, instruction specialist at Surry Community College, has developed a brain-based online course design model based on a meta-analysis of more than 300 articles. In this study, she distilled the following elements of brain-based course design:

• Low-risk, nonthreatening learning environment
• Challenging, real-life, authentic assessments
• Rhythms, patterns, and cycles
• Appropriate chunking or grouping
• Learning as orchestration rather than lecture or facilitation
• Appropriate level of novelty
• Appropriately timed breaks and learning periods
• Purposeful assessments
• Learning that addresses visual, auditory, and kinesthetic learners
• Active processing with mental models
• The use of universal examples, analogies, and parallel processing

Tompkins offers the following succinct definition of brain-based: “instructional strategies designed for compatibility with the brain’s propensities for seeking, processing, and organizing information.”
Tompkins’ model uses the acronym IGNITE.

Intervals: Tompkins recommends using an interval of intense focus for approximately 15 to 20 minutes followed by a two- to three-minute break. “Physiologically, your neurons are keen and alert for no more than 20 consecutive minutes. At the end of those 20 minutes, your neurons have gone from full-fledged alert to total collapse, and it takes two to three minutes for those neurons to be completely recovered and back to the total alert state. If you break longer than three minutes, you’ve redirected your attention,” Tompkins says.

Shifting from intense focus need not be a radical change. It can be as simple as posting to a discussion board.

Grouping: Present information in groups of three or five. “The brain can process no more than nine items in a sequence, and it actually does this much more efficiently with three or five. Odd numbers work better than even numbers. If you’re going to give students a list of six things to do, make it one, two, three, whitespace, four, five, six. The brain responds to whitespace because the brain processes things in groups. Students will be better able to focus as they look at this group of information. You’re providing the same amount of content. It just makes it more learner-friendly,” Tompkins says.

Novelty: When students are bored they tend to not pay attention to information that is present. Tompkins recommends injecting novelty to prevent boredom. “If there’s no announcement to make, post a good joke for the day. If you’ve got a header picture, change it once a week. Insert pictures with each unit. Do something to get their attention. You want students to go in and say, ‘What’s new today?’”

Interconnectedness: Learning needs to be connected to students’ reason for taking the course. Tompkins recommends making these connections by providing experiences and demonstrations and revisiting those experiences. Constant review is essential because people learn through two mechanisms: repetition and connecting to prior knowledge, Tompkins says.

Technology and time: Select the appropriate technology to suit the needs of your students. For example, podcasts may be effective for master’s-level students, but they are not a good choice for teaching developmental-level students.

It's important to provide enough time for students to process what they’ve learned. “Don’t put so much work in there that there’s no time to process what you’re asking them to learn. I think sometimes instructors fill their courses with all kinds of things that there’s no way students will have time to do everything,” Tompkins says.

Environment: Keep the affective aspects of the online learning environment in mind. Welcome student emails. Understand your learners’ needs.

This model does not require sophisticated high-tech solutions. “It can all be done with a very simple course design,” Tompkins says. “I recommend using visuals all you can because over 90 percent of us are visual learners.”
 Rob Kelly is the editor of Online Classroom. 

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This article originally appeared in the newsletter

Teaching & Learning - Brain-Based Online Learning Design - Magna Publications

Teaching & Learning - Brain-Based Online Learning Design - Magna Publications

This article has some excellent ideas on learning activities

Teaching & Learning - An Assignment that Prevents Plagiarism - Magna Publications

Teaching & Learning - An Assignment that Prevents Plagiarism - Magna Publications

Developmental Ed. Blog: Welcome

Developmental Ed. Blog: Welcome: Hello to you all, Would like to welcome all CUP staff to our Developmental Ed. Blog.  Will be posting more as I figure out how to use it. ...

Teaching Strategies - Ice Breakers

Coin Activity

Goal: Increase sense of community amongst a group by sharing information about each other

Materials:

Coins from various years.

List of “Coin Talks”

Procedure:

1.    Have students each select a coin (or card with coin image and year on it)

2.    Have a deck of “Coin Talks”.   Select a card. Don’t show anyone yet.

3.    Then, find a partner.  When I say “go”, ask your partner the question on your card.   Switch when finished so each of you has a turn.  You will have about 30 seconds to share.

4.    Then, at 30 seconds, move to another partner.   Repeat.

5.    Repeat for at least 4 more tries.

6.    Then, return to large group.  Discussion: 

What are some of the most interesting answers you discovered?

Where were you living and why?	What were the top fashions of that year?  What type of clothes did you wear?
What were the popular movies or television shows?	What was in the news?
What were you doing on this date?	What were your favourite foods?
Who were your good friends? Are you still friends with them now?	What did you think you would be doing in the future?
What were some of the “trends” from that year?  Did you participate in those trends?	Were there any special “weather” happenings? – For example - a big storm, a drought, a flood?
Who were some of the big “movie stars” from that time?	What types of vehicles were popular?
What world news events happened?	Who were some sports stars?
What types of activities did you usually do?	What were the new technologies?

2010	2008
2006	2004
2002	2000
1998	1996
1994	1992
1990	1988
1986	1984
1982	1980

http://www.theatlantic.com/national/archive/2011/12/what-americans-keep-ignoring-about-finlands-school-success/250564/

http://www.theatlantic.com/national/archive/2011/12/what-americans-keep-ignoring-about-finlands-school-success/250564/

Education minister Lukaszuk says reduced school year off the table

Education minister Lukaszuk says reduced school year off the table

How should we transform education

CBC.ca | Type A

Listen to this through-provoking look at the business model applied to education. I do not agree with all the ideas discussed, but I do think they are good starting points for debate. As an instructor who has worked hard, and done my best, I like the idea of merit pay. I get tired of seeing "slackers" continue with mediocre teaching - they do us all a disfavour. Nevertheless, how do we measure merit? Would it mean that each of us would waste endless hours "marketing" ourselves? For example, I see countless examples of people taking part in community service events, and other activities with a so-called genuine desire to make a difference. Yet if we really look at their motives, they are doing this things to look good, to add another line on their resume. Furthermore, would only the popular teachers get merit? Or, would those who pad the marks to get higher scores win? Or, would those who glitz up their classes with technology that really does nothing to enhance instruction?
Meanwhile, the day to day tasks would be left to those of us who just do the right thing, and quietly work to make sure things get done. All too often I have watched colleagues lauded for good teaching, while I was too busy picking up behind and cleaning up their mistakes to focus on the important work of teaching. Sour grapes - maybe? But it does point out the problem with merit pay. Accountability for our work is important, but I'd hate to fall into the world of universities - where I heard one prof brag that she spend 3 weeks collecting data to show what a good teacher she is. I call this a waste of time.

Anyway - this episode should spark some timely debate.

What is good teaching?

I have been reflecting lately on what is good teaching. There is no simple answer. Perhaps the betteer question is what makes q good teacher. I believ the following qualities ar essential elements of good teaching: 1. Flexibility 2. Adaptability 3. Curiosity 4. Organisation 5. Creativity 6. People skills interpersonal skills 7. Desire to remain current 8. Appeal to learner's reality ...trying to figure out what is important to them so you can draw relevance to their world and the content.

Reinforces my views on teaching adults

Here's an article from Faculty Focus

• Treat them like the adults they are. Adult learners are generally more sophisticated and experienced than their younger counterparts and they benefit from realistic examples of skills they can use in "real life." "Adult learners will be empowered as they discover they have a great deal to teach their younger classmates, and the dynamic is mutually beneficial," said Thomas Lisack, an instructor at Rasmussen College in Wausau, WI. Lisack recommends incorporating intergenerational discussions on issues that otherwise have a generational divide as appropriate for the subject matter to engage learners of all ages.
• Be aware that their classroom skills may be "rusty." Some adult learners have not been in a classroom for 30 years, so you may need to remind them of basic rules and etiquette, such as raising a hand if you have a question. At the same time, reassure them that, as the instructor, you will not be judgmental of their life experiences or their perspectives, and that they will be evaluated only on their mastery of the content. Be generous when it comes to formatting issues such as APA writing guidelines. Instead, focus on content. "I have found adult learners to be self-conscious, even apologetic, when it comes to being in the classroom," Lisack noted. "They might even exhibit some shame because they feel decades behind their classmates. The more you can break down these walls of insecurity, the better."
• Consider and acknowledge the technology gap. Students in their 50s and 60s are generally not nearly as tech savvy — or tech dependent, as some would argue — as 18 or even 30 year olds. Assess each student's level of proficiency as it relates to class requirements and compensate. Lisack said he once spent three hours after class teaching a group of displaced workers — many of whom had never used a computer — the finer points of Microsoft Word. "The students were very grateful. I felt I'd accomplished something important to help them on their educational journey and it was very satisfying," he said. Even if they are skilled with technology, adult learners tend to have dramatically different habits. "While younger students may be tethered to technology, adults have longer attention spans and traditional classroom approaches appeal to them," Lisack said. "This does not mean you can lecture to them for three hours, but you can expect the older learner to concentrate on complex material without feeling 'withdrawal' of from a technology device."
• Be efficient with lessons and activities. "Move fast and don't waste anyone's time," advises Andrea Leppert, adjunct instructor at Rasmussen College in Aurora/Naperville, IL. "Adult students have jobs, sometimes children and tons of responsibilities, so pack every class with information and useful activities." Consider balancing instructional time with "lab" time, giving students an opportunity to do modeling work or homework in class to give them a better chance of accomplishing all the requirements on time. Leppert also suggests being "strictly flexible" — diligent in your expectations, yet understanding about busy lives, illness and working late. "Like any job, it's not to be abused, but as grown-ups, we have priorities that sometimes take precedent over finishing assignments," she said. "Build in safety nets that allow a limited number of late assignments to maintain flexibility, accountability and expectations of excellent work."
• Be creative: Use the unique vibe or personality of each class to teach the lesson and choose activities that engage, and even entertain to some degree. Pair highly motivated students with those less skilled on projects to create peer encouragement and mentoring. Leppert says this strategy keeps students interested, attendance high and motivation strong.

3 good questions for policy

Here's an update from Cheryl Smith re: discussion surrounding school initiatives:

Keeping student success at the forefront as policy decisions are made



  through these lenses:

1.  Is the proposed change going to enhance student success?

2.  Is the proposed change funded?

3.  Will the proposed change keep the system flexible (provincially and

locally) so that school boards can respond to shifting  and local needs and so government and school boards can move forward on the transformation agenda?

21st Century Competencies

What does it take to be successful in the 21st Century?  According to Alberta Education, the following competencies are essential:

• Critical Thinking, Problem Solving and Decision Making
• Creativity and Innovation
• Social, Cultural, Global and Environmental Responsibility
• Communication
• Digital and Technological Fluency
• Lifelong Learning, Personal Management and Well-Being
• Collaboration and Leadership

I see the need to embed these competencies into our curriculum, but how do we get others on board when so many are still focused on traditional lecture delivery methods?    I also see an urgent need for us to re-evaluate the English curriculum outcomes to reflect a focus on these outcomes.  For example, why are we focusing on memos when few people write them anymore? Furthermore, the format for memos expected does not even meet the current technological delivery method.  No wonder our program feels somewhat stale and stalled.

The week in review - back in the saddle again!

This year is getting off to a great start.  I feel much more organized, although I could easily spend more time on planning and general prep.  The marking load will soon  be upon me, so I need to be prepared.
Nevertheless, the success I've noticed this week include:
1. I learned how to create quick 2 - 3 minute video tutorials, post them to Vimeo, then embed them in the course.
2. My English 095 class went very well.  I had created a visually appealing slide show to lead us through a discussion of Once More To the Lake, followed by a 5 minutes journal writing session. I had a variety of pictures showing while they wrote, and played some quiet music. While the wrote, I occasionally offered some suggestions on what to write about, based on the pictures and the music. For example - what did they hear, see, smell while at the lake of their past?  The music I selected naturally moved to a more upbeat rhythm as we moved toward the end of their journal writing time.
3. All my classes naturally included a variety of activities designed to reach different learning modes

Using "Think Alouds" in class

Here's another great idea from The Teaching Professor.  I'm going to consider how I can do so!

January 6, 2012

Think Alouds Shed Light on How Students Grapple with Content

By: Maryellen Weimer, PhD in Teaching Professor Blog

One of the enduring legacies of the classroom assessment movement (thank you Pat Cross and Tom Angelo) is that most faculty now realize that if they want to know how well something worked to promote learning in the classroom, they can’t just rely on what they think. They need to support what they think with feedback from students and, if that feedback doesn’t agree with what they think, they need to listen carefully to what the students said.

Building on that foundation, the scholarship of teaching movement has shown faculty that they can “study,” as in systematically inquire about, what’s happening in their classrooms. Increasingly, instructors’ examinations of their teaching and their students’ learning are finding their way into the pedagogical literature. One of the side benefits of these scholarly endeavors is the importing of a number of interesting assessment techniques mostly developed in psychology, cognitive psychology and educational psychology. Think alouds is one such technique and Lendol Calder describes how he used this approach in an introductory history course.

Think alouds were originally developed by cognitive psychologists as a research tool to study how people solved problems. Calder used them in his course “to measure changes in thinking patterns over time for selected individual enrolled in my survey [course].” (p. 1367) At the very beginning of the course he gave students a number of historical documents (somewhere between seven and ten) pertaining to the battle of the Little Big Horn. Students were supposed to try and figure out what the documents meant. They did so by talking out loud to themselves. “Their verbalized comments were recorded and transcribed for later analysis to determine patterns of cognition used to make sense of the documents.” (p. 1367) Students participated in the same exercise at the end of the course only with a different set of historical documents.

You could do the same with papers written before and after a course, but Calder thinks that the think alouds have distinct advantages. “The advantage of think alouds over graded student work is that they allow one to observe the process of thinking in a raw, unvarnished state. Think alouds reveal not only what a student thinks but also how she came to think it. Think alouds expose the stumbling, the hesitations, the blind alleys, the good ideas entertained and abandoned, the inner workings of a mind trying to make sense of the past.” (p. 1368)

But Calder identifies another advantage that’s even more compelling: “Listening to my students think out loud as they tried to make sense of documents is the single most eye-opening experience I have had in my years as a teacher.” (p. 1368)

Could changes in student thinking be detected in the before and after of these think alouds? “What my studies revealed is that even in a short, ten-week course students on average make modest to occasionally dramatic gains in all six aspects of historical thinking taught in the course.” (p. 1368) I should note that Calder’s course is your not typical history survey course—his article describes a course design that deviates significantly from how history courses are usually designed and taught.

It’s such an interesting assessment strategy. Even if you didn’t want to use it in a rigorous study design, the idea of listening to students as they try to deal with content has got to be revealing. In the cognitive psychology research, think alouds have been used to differentiate expert and novice knowledge and thinking processes. As I have pointed out in previous posts, it is so easy for faculty experts to forget how novices think about the content. Yes, it can be depressing, even frightening, since most students do not think all that deeply about our content. But knowing where they start allows for a more efficient journey to where they need to be. As Calder’s experience shows, you can then design a course, in his case one where he used the content to explicitly teach six cognitive habits: questioning, connecting, sourcing, making inferences, considering alternate perspectives and recognizing limits to one’s knowledge. (p. 1364).

Reference: Calder, L. (2006). Uncoverage: Toward a signature pedagogy for the history pedagogy. The Journal of American History, March, 1358-1370.