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I have seen tweets and blog posts recently about frustration that teachers are having getting their students to collaborate. These were mainly secondary teachers and library media specialists. It was even an #EdChat topic a few weeks ago: "How do we engage students who find participatory learning uncomfortable?" What do you find most difficult when getting students to collaborate? Criticism from their peers? A bad experience with a previous teacher? It seems like there's so many factors that can come into play.

How are we fostering this skill beyond kindergarten? What have you found that really is motivating for students to collaborate? What gives them true ownership of their learning? There's awesome digital tools that aid in collaboration, but those tools don't MAKE the collaboration. It's a skill that still has to be fine tuned. It's a skill we should all be modeling effectively if we want our students to do it effectively. If you're looking for some great suggestions on how to foster collaboration in your classroom, I would suggest reading Michelle Bourgeois' post titled:  The Collaborative Classroom: It’s a Juggling Act. In this post Michelle tells a story of teaching students how to juggle and says. "Just like the art of juggling, there are several skills that need to be balanced and constantly monitored in a collaborative classroom to make it all come together." Please be sure to check out Michelle's post on how to monitor and keep balance of some essentials in classroom collaboration.

We should be fostering this skill in our classrooms, not hindering it. How often are you allowing students to collaborate? Not to say that awesome things can't come out of individual thinking, but as I always like to say, "We're better together." Sure, one mind can do awesome things, but a collective could really rock someone's world.

Try and find that balance between learning and living. Understanding that you can not know it all, and begin to understand that you can rely on your network to learn and store knowledge for you.

Active and Reflective Processing. Active learners tend to learn while doing something active---trying things out, bouncing ideas off others; reflective learners do much more of their processing introspectively, thinking things through before trying them out [12]. Active learners work well in groups; reflective learners prefer to work alone or in pairs. Unfortunately, most lecture classes do very little for either group: the active learners never get to do anything and the reflective learners never have time to reflect. Instead, both groups are kept busy trying to keep up with a constant barrage of verbiage, or else they are lulled into inattention by their enforced passivity. The research is quite clear on the question of active and reflective versus passive learning. In a number of studies comparing instructor-centered classes (lecture/demonstration) with student-centered classes (problem-solving/discussion), lectures were found to be marginally more effective when students were tested on short-term recall of facts but active classroom environments were superior when the criteria involved comprehension, long-term recall, general problem-solving ability, scientific attitude, and subsequent interest in the subject [15]. Substantial benefits are also cited for teaching methods that provide opportunities for reflection, such as giving students time in class to write brief summaries and formulate written questions about the material just covered [15,20].

reflective learners do well at individual research and design.

Unfortunately---in part because teachers tend to favor their own learning styles, in part because they instinctively teach the way they were taught in most college classes---the teaching style in most lecture courses tilts heavily toward the small percentage of college students who are at once intuitive, verbal, deductive, reflective and sequential. This imbalance puts a sizeable fraction of the student population at a disadvantage. Laboratory courses, being inherently sensory, visual, and active, could in principle compensate for a portion of the imbalance; however, most labs involve primarily mechanical exercises that illustrate only a minor subset of the concepts presented in lecture and seldom provide significant insights or skill development. Sensing, visual, inductive, active, and global learners thus rarely get their educational needs met in science courses.