Category Archives: A. Video cases

I really enjoyed the posted video cases.  I looked at Case 2 and 3.  In Case 2, the physics teacher stressed that using technology in class made classes more teacher centered and less student centered.  This is a wonderful thing, because as teachers we are always looking for ways for students to take control of their learning.  In this case the teacher can act more as a guide and mentor, and students can have an active part in their learning.  I am happy that the teacher brought up transferable skills, here in the UAE, they call the 21^st Century skills and they are necessary when you are teaching students in this day and age.  When you incorporate technology in the class these skills are honed.  Transferable skills include critical thinking, collaboration among students, creativity, and communication.  These are all skills that students are going to need later in life, as well as when they enter the workforce.

This teacher also mentioned that using technology in the class, can cut down on time that is spent on things such as data collection, which can be time consuming when done manually.  He mentioned that his school has seen an improvement in grade, along with increased participation by females.

The female student that was interviewed, mentioned that using technology made the class easier to understand.

In Case 3, the teacher said that she had made assumptions about technology use among her students.  I can relate to this.  The first year that I taught Grade 7 Science, we went to the computer lab to do an assignment and I told the students that they had to email it to me as an attachment.  I was shocked to find out how many students did not know how to send an attachment.  I think as teachers we sometimes assume that because these students have grown up with technology all their lives that they are digital natives, when this isn’t always the case. This teacher mentions that many students were apprehensive when it came to using the technology at hand.

When ever technology is going to be used in class you must have a plan B.  There are times that the technology is not going to work, this was also mentioned by the teacher in this case.

There is no question that doing a simulation on a computer is nothing like performing an experiment in real life.  When you are in the lab performing an experiment, you must troubleshoot if there is a problem.  In a simulation, there are rarely problems and things always run as planned.  Nevertheless, if you do have the space, resources or equipment, a simulation is an excellent substitution.

Simulations may exacerbate conceptual challenges because they do not know what the equipment, materials or set up looks like in real life and this could pose a problem.  Yet, it is better to expose a student to a simulation, than to nothing at all.

Because I have mostly taught in single sex schools (all girls), I have never thought about technology to draw girls into a class or a subject, like the Physics teacher in the Case 2 mentioned. I guess we could take to all female science classes and see if using technology in class improved participation and grades.

There are a few issues that stood out to me in the videos.  The first issues that was discussed in a few of the videos by the interviewee was access to technology.  Some of the schools seemed to have limited access to the resources in order meet the daily needs of their program.  For example, in Case Study 2, the teacher that taught his students to use the graphing calculators mentioned that it was almost impossible to have access to the computer labs because other departments in the school were always using them for other purposes.  I was intrigued with how inventive he was with his use of the graphing calculators to teach coding. This was a device was portable and attainable for a relatively low cost through the Parent Advisory Committee.

The teacher in the elementary space science used a creative way to get the students to think about the complexities of space. I loved how she paired the students up to work collaboratively on a project with the laptop to create soundbytes. This was also a method that the teacher with the graphing calculators used. He made sure he had some at least one students in each group that would be stronger in terms of their knowledge of technology.  When the students presented the work, he asked the class to help the one teen adjust his code so that it would accomplish something else.

The elementary space science teacher had a unique demographic to deal with in her classroom.  Most of the students were not from the local area so that language skills were not typical for that region.  She used technology to approach the curriculum in a way that was more visual and tactile to help the students grasp the concepts.  Technology can be used as a way to bridge the gap in areas that a student may be struggling in.  For example, a student’s written output could be weak but maybe they can demonstrate their understanding of the content through some sort of video or audio presentation.

After watching the cases, I want to comment on cases 3 and 6.  I was reflecting on my “Unpacking Assumptions” post, and the question of how technology is used in the classroom, and my idea of categorizing tech into either teacher-facing and student-facing.  I realized after watching the cases that there was a key element I was not considering, namely, is the technology being used to transmit information (teaching tool) or is it being used as a medium for students to demonstrate their learning (presentation tool).  The teachers is cases 3 and 6 are taking very different approaches.  Teacher A has used technology to engage students in virtual lab experiments as a source of information to students, whereas teacher F asked his students to use podcasting, GIFs, and powerpoint presentations as media for them to show their learning.  I think this is more important distinction to consider than teacher-facing/student facing.  Technology that is used as a teaching tool would likely be purpose-built for educational use.  This has advantages and disadvantages – it fits the need it is built for well, but its application is narrow in scope.  Technology that is used as a presentation tool is usually built for some other purpose, and has been appropriated for educational purposes.  The limitations here are similar, though opposite – students must make their work fit into its parameters, though its application often offers much broader possibilities.

Another issue that emerged while watching the cases was the problem of access.  Each of the teachers described a variety of access issues, from hardware, to pre-service teacher education, to professional development.  Teacher A and B (as well as their students) both describe the lack of hardware available to students – there seemed to be a lot of juggling computer time and putting more than one student on each computer.  Hopefully,  this issue has improved at the school since the video was made.  Judging by some visual cues in the videos, the video was made in the early 2000s, so it is likely that more computers are now available and it is possible that some of the programs they used would now be available on student’s mobile devices.  The case 6 teacher and student teacher, however, bring up another access issue altogether: how do teachers learn about technology they can incorporate into their practice?  This seems to be still be an issue today.  The teacher in case 6 seems to be personally interested in exploring technology on his own, and goes so far as to say that if a teacher wants to keep pace with the changing landscape, that they have to go find and learn it themselves.  The student teacher mentioned the lack of technology education in her university classes.  How will new teachers be prepared to take on the emerging edtech boom?  

I think part of the problem is that k-12 teaching is not a traditionally innovative profession.  It has remained relatively stagnant in form for about 250 years, and the environment during those years has not rewarded people seeking to be on the cutting edge.  As a result, many teachers at both the k-12 level and the university teacher preparation level fall into the “laggards” category of the Innovation Adoption Cycle pictured below.  These people would see the ever-changing tech landscape as both unreliable (hardware/software become obsolete very quickly) and threatening to their traditional pedagogical methods.  This is why the TPACK framework is so important to introduce, since it provides a way of looking at technology’s role within learning in broader strokes and allows teachers to design learning that incorporate technology that plays to their strengths and the strengths of their students (Koehler, M. & Mishra, P. 2009).

Image retrieved from:

http://thesocialmediamonthly.com/startup-growth-hacking-critical-mass-begins-with-early-adopters/

Several thematic issues for STEM education

Dear ETEC 533,

I enjoyed reading each of your analyses of technology-enhanced learning experiences, as shown by the video case studies we viewed this week. The video cases that were viewed were of several different math and science learning environments in BC. Despite their different settings and contexts, your analyses of these video cases appeared to share several points in common, points which are definitely worth further reflection because they also seem to be recurring themes in much of the dialogue about technology in Math and Science. There may also be additional patterns of observations and analytic intersections that you noted as you read posts, so please feel free to add voices to this as we engage in a process of grounding issues and finding patterns in experience—both within the video cases and with our upcoming interviews. Thank you too for your creative subject headers to invite responses. Additional themes most welcome!

Theme on “Gender Inequity and Educational Technologies: An Issue Relevant to STEM”
One of the clear observations in your posts was about gender and technology in the math and science classroom. A number of you reflected on the different uses of technology by boys and girls. This and other observations of your classrooms raise interesting issues regarding gender and technology. A few emergent questions relevant to STEM that emerged for me are: Is technology use gender neutral? Do children assume traditional roles by gender (girls take notes, boys control equipment and make decisions or otherwise)? Are these roles changing today? Do STEM disciplines foster different relationships to technology compared to digital humanities? The conversation emanated from your analyses of the video. For example, Dana was compelled in the video case with Teacher F to raise that, “The issue that he raised that was most compelling to me was the notion that using technology within the classroom is a way to bring the boys back into the academic arena.  I would also agree that in the last ten years, girls have been dominating in both my Math 10 and Physics 11/12 courses.” Dana further compared that, “Teacher A raised a couple of interesting issues, as well. He noted that girls prefer to experiment with the computer simulations on their own, saving themselves any embarrassment as they navigate through their learning process, whereas boys appreciate the immediate gratification that technology can afford in the lab.” Darren weighed in and pointed out the differences he observes in his physics classes from the past to today: “The differences in attention to detail, focus, and simple ability to follow instructions are becoming quite jarring between the sexes. In terms of technology in the classroom, I do not see as many differences in behaviour between the genders. Both are less likely to ask technology-related questions; however, it is possible that they are already familiar with those used in the classroom.” Anne raised the issue of the achievement of girls and boys in STEM classes as being sometimes incongruent with onward trajectories to STEM careers as well. Further questions raised were on whether technology impacts achievement and career trajectories.

Equity is a theme worthy of further investigation and requires observation and evidence to show, among other things, the value of these differences for learning with technology.  Research will contribute to our insights on the intersections among, gender, diverse groups such as language learners as mentioned earlier, and technology.

Theme on “How can technology be employed to enhance conceptual learning and skills for STEM?”

After comparing and contrasting cases, several descriptions focused on learning with technology emerged in our posts. Perhaps another question underscoring the descriptions of the technology-enhanced experiences was how can technology be used effectively for STEM learning of concepts and process skills? Darren analyzed video 4 and generated a set of levels of integration of technology. It is plausible that each level has the potential to support conceptual understanding: He suggested for “level 2 or 3” integration with simulations and animations, that, “As described in the ‘Case 3’ videos, students develop transferable skills that will inevitably enhance their own lives outside of the classroom”. How a teacher sets up the use of the digital technology, or not, leads to a composite of learning, as suggested by the analysis of the interviews from Mary where, “Teacher E” discussed the fact that digital technology should not be treated as a stand-alone subject area, but must instead be integrated into our classrooms. In addition to this, digital technologies should be used only when they are enhancing students’ learning. “Teacher E” pointed out that if a student can learn just as well from a book, then perhaps we should simply allow them to read the book. However, if learning can be enhanced by using digital technology, then we must be prepared to use digital technology. This was an important point for me because it emphasized the fact that we do not have to try to integrate digital technology into all aspects of our classroom. Sometimes, more traditional methods continue to work quite well.” Mary’s examination of Teacher E helped us to see how learning might be fostered with a variety of methods, including those without the use of digital technology.

Lawrence, while inquiring into student learning, discussed the role of technology in understanding. In his examination of Case 3, he questioned “whether technology’s ability to remove more menial components of tasks is a detriment to skill development.  Teacher A mentions that measuring lengths and angles and using other tools are certainly skills in their own right, but also rightly points out that technology proves more time efficient by removing the more mundane tasks so that students can quickly get to the concepts at hand.  Developing fundamental skills may or may not necessary to accomplish a certain task (ie- one does not need to know how to develop film in a dark room to take a photo), but it does help to provide a depth of understanding. “Michelle reflected on the videos she watched and concluded that, “Students are not only bound to textbooks and written work, but are able to act, produce, reflect, create, problem solve, hypothesize, cooperate and present using technology as a tool. This is important and is providing for a deeper and more engaging learning experience for many.” In terms of learning, Vibhu reflected that, “For me, it was the transferable skills that really emerged from the video cases like being literate in technology, being comfortable with using technology, working together to solve problems: skills that professionals use every day.” Jessica acknowledge the new BC curriculum that includes a set of competencies for students as they progress in the math and science curriculum. She wrote, “As the Physics 12 teacher (Case 3) describes technology as evolving his teaching from being transmissive to transactive, this idea of practicing the competencies through using technology, while gaining a deeper understanding of content is highly evident. Students are collaborating with peers who are not necessarily their friends, managing their time and resources, problem solving and integrating technology appropriately – all of these activities are considered both competencies and important life skills!”

These posts begin to underscore a theme on deeper learning in science and math and suggest a need for thoughtful pedagogical approaches, frameworks, and strategies that may move deeper beyond the seemingly appealing and engaging activities we can create with technologies.

Theme on student assessment in STEM

To gauge whether the integration of digital technology is effective for STEM learning, student assessment was raised in a number of your posts. For example, Gloria and others ascertained an issue with assessment. After watching the elementary space science and middle school videos, Gloria questioned: “how will educators adequately assess students when they use different ways to showcase their learning? For instance, in both classrooms, the teachers mentioned the use of raps, podcasts, videos, experiments, and interactive websites where different groups of students are engaged in.”

Our readings thus far on conceptual understanding would suggest that typical assessments do not test for deeper conceptual understanding. Several of you alluded to here, and in the last forum, that typical classroom assessments may not get at this challenge and require us to consider how we are assessing our students for deeper conceptual understanding with digital technology.

Theme on Teachers and Educational Technology

Teacher education was also a major thread throughout our discussions. Daniel revealed, after watching the middle school science video, “I found it distressing that some of the case teachers considered technology to be an ad hoc item to be used “on the fly”. Technology can eat up incredible amounts of time with limited gains to show for it if its use is not properly planned and scaffolded.” He further offered several ideas for PD for math and science teachers in schools on using technology. Teacher education was also an area of special focus for Catherine who found that, “After much consideration, my mind constantly returned to the struggle of the teacher (pre-service, new teacher, teacher and retiring teacher). I will admit however, that I likely returned to this struggle because it is an area of interest I would like to explore further when I have completed the MET program”. Catherine suggested that, “New and preservice teachers felt they were not educated on the use of technology in the classroom, and many seemed overwhelmed at the prospect.” Similarly, Anne recalled in her videos that the teachers, “[S]tated that they would still be reluctant to use it in their own classroom because they were not “experts” and it would take too much time to implement it. I still find it odd that there are people who still consider themselves not “tech savvy”. To me this is like saying you are not math smart. Everyone is math smart and everyone can be tech savvy, it is a learning experience, not an innate talent. This tells me that there is not enough technology education for educators to allow them to feel competent about including this as part of their teaching.” Anne put forward that this type of education be mandatory for preservice teachers.

The teachers in the STEM video in particular (the 360 videos) were able to get together to develop and work on their curriculum. Stephanie related her analysis of the STEM video to her own school like many of you. She shared that staff are engaged in a long term process of technology integration, described this way: “As my division has worked through the implementation of personalized electronic blended learning, a phrase my school has adopted is “dipping a toe in and getting our feet wet.” In addition to professional learning communities, “New teachers should be mentored and supported through being teamed up with more seasoned educators and then allowed to use technology in their teaching with guidance and supports. In addition, educators should be given time to share technology tools at staff meetings or division meetings.” Allison watched the 360 videos and suggested that, like the teachers from the case who worked to integrate digital technology in a maker space STEM learning environment, one “could go and visit other schools with models they were interested in and also to talk with other educators about new directions that could and should be taken. In my district we can apply for collaborative grants and I see how this type of teacher inquiry could be very meaningful and impactful.” Math and science teacher education is truly a lifelong journey and many of you are a testament to this.

To sum up, a few of the many themes that emerged from our discussion are suggested here and include:  Gender and Equity Issues in STEM; How the Digital Technology is Effectively Integrated in Learning Settings (where math and science concepts are being taught), Student Assessment for deeper conceptual understanding, and supporting Math and Science Teacher Education. Please feel free to add more that you may have seen emerge from our discussion in our forum where this summary has also been posted.

A number of important observations and salient questions were raised throughout your analysis of the video cases, and there are likely more that were not addressed in this summary but remain important for you to explore. If any of these “thematic questions “are ones that you cannot articulate an answer for or resonate with your current practice, consider asking about them in your interviews@home.  Coupled with your auto e-ographies and unpacking assumptions, the questions you raised from the video cases may also serve as a source of salient issues for your first major assignment in the course, the Framing Issues Assignment.

Thank you for your interesting analyses of the videos, Samia

One of the key components of using technology in classroom from my post on Lesson 2.1 was that using technology allows for collaboration and corporation.

In most (if not all) video cases, group work was consistent no matter the type of technology being used.  May that have been the “shop” class, graphing calculators, using motion tracking software, making podcasts, or even slomations.

For me, it was the transferable skills that really emerged from the video cases like being literate in technology, being comfortable with using technology, working together to solve problems: skills that professionals use every day.

The interesting point made by some of the teachers was the difference in how male and female students used technology that I didn’t really expect.

How might these differences in use of technology impact student learning?  It would be great to have some feedback from my peers.

Thanks

Vibhu

Disclaimer: I was only able to view the videos through the side panel on the course website under the tab “Course Videos” and have done my best to align the videos with the bios provided with each Video Case page. Hopefully, my problem solving and critical thinking skills have proved successful!

It is Teacher E (Case 8), the science instructor of teacher candidates, who summarizes well educational technology as it weaves itself through many of the case video samples. He asserts that technology use within the classroom should be used to enhance student learning and should be integrated with other subject content. These goals of technology use can be seen throughout the case videos, as both students and teachers share that their experience with technology enables students to understand content more easily and more in depth. Although ideally, technology should be integrated with other subject areas, students and teachers admit that there is a significant learning curve that occurs in order to efficiently and meaningfully use the technology. In Case 2, Teacher M communicates that he introduces the graphing calculator to students in grade eight. By the time the students are enrolled in grade eleven, they are able to use the technology to learn content, rather than use time to learn the technology. In Case 3, a grade 12 Physics student admits that it took her a year to move through the frustration of learning the new technology. However, now that she has developed the necessary skills to implement the technology, she is able to complete the learning more easily and with a deeper understanding. This understanding is evident through her engagement and problem solving abilities within the video.

In Case 1, a reference is made to the New BC Curriculum that is beginning to be implemented in 2016/17 for grades 10-12. One of the teachers mentions that the Content of the new curriculum is the topics through which to practice the Competencies. As the Physics 12 teacher (Case 3) describes technology as evolving his teaching from being transmissive to transactive, this idea of practicing the competencies through using technology, while gaining a deeper understanding of content is highly evident. Students are collaborating with peers who are not necessarily their friends, managing their time and resources, problem solving and integrating technology appropriately – all of these activities are considered both competencies and important life skills!

A final observation is that of the educators who are implementing technology within their learning spaces. There is almost a tangible enthusiasm expressed through the screen as they share about the activity occurring among their students. All of these educators are experienced educators with at least a decade of teaching experience, and all of them have been willing to invest in learning meaningful technology either on their own, through collaboration with other teachers, or through professional development opportunities. These educators were willing to take risks and challenge the status quo of a traditional learning space. They faced challenges, but were willing to work through the challenges, viewing them as part of the learning process and keeping a positive perspective. Conversely, most of the preservice teachers and new teachers shared hesitant or even negative perspectives on using technology in significant ways in their classroom. The two most common reasons for hesitancy were lack of knowledge regarding the technology – how to implement and how to problem solve, and the amount of time necessary to teach students how to use the technology efficiently and effectively. I found this interesting because I would have assumed that the newer, and typically younger, teachers would be more capable and confident in exploring new technology than older teachers, but this is not evident within the videos, overall.

Finally, I would like to express appreciation for the sharing of these video cases. The variety of perspectives through the various classroom settings and teacher experiences is incredibly insightful and offers much inspiration, as well as material for consideration.

The techniques and tools used in the videos I watched seemed to follow the thread of turning responsibility and agency over to the students.  In Case 4, the pre-service students who were interviewed seemed apprehensive about this prospect.  The cases were of teachers who are well entrenched in their technology-rich learning environments.  One issue that I feel is important is the steps in between just beginning to use technology in the classroom and being at a point of comfort as demonstrated by the interviewed teachers.  Often, case studies and professional development showcase articles focus on teachers who are already advanced in their technological journey rather than teachers who are in the ‘muddy’ phases of figuring it all out.  As my division has worked through the implementation of personalized electronic blended learning, a phrase my school has adopted is “dipping a toe in and getting our feet wet.”  I believe this could also apply here.  A transition to a new method of teaching and learning can be difficult for teachers, students, and parents, and so it is important for teachers to recognize that meaningful technology integration is a process, not an overnight change.  For example, students need to learn independence and self-regulation in order to be able to engage independently in learning activities like the bridge challenge in the STEM classroom from Case 1.  It is okay to try things progressively rather than overwhelming oneself with piles of new tools to learn.

In Case 4, the profiled teacher explained that teachers need to have a support net of people who know more than you do in technology.  From experience, I have learned that having a network of support is essential to successful exploration and experimentation for technology integration.  Teachers themselves may even have misconceptions about specific technology tools or ways of teaching.  If teachers are not comfortable with their techniques or cannot be critically reflective of the digital tools available, students can miss the intention and opportunity of digitally enhanced learning.  Rich exploration projects are extremely valuable for learning, but it is important that the teacher be able to guide students through challenges and toward their end goal. It would be stressful to reach the end of a long project and realize that students have entirely missed the learning outcome or have learned incorrect information through their self-directed work.  With support networks, teachers can learn from the collective experience of others and be able to take risks knowing that they are not alone in the journey.  Through these risks, they can discover new ways for their students to learn.

In going through the various examples of technology in the classroom, I found Cases 3 & 6 to be good examples of some ways students can use technology.  Case 3 demonstrated how technology can be used to facilitate problem-based learning activities, helping to minimize, as Teacher A notes, the amount of traditional, transmissive teaching needing to be done.  In doing so, it allows students to construct their own knowledge particularly as the activity shown in the example was a problem-based one that challenged students to not only identify and verify scientific concepts, but to also devise their own testing method using the equipment available.  In addition, it allowed students to develop skills in many areas from scientific (usage of computers and lab equipment), social (collaborative learning environment), and analytic (troubleshooting equipment set ups and reviewing of data).

From this though, two questions did arise, one of which was address in the interview with Teacher C in case 6. In Case 6, technology is used as a way to facilitate more avenues of creativity by leveraging all the ways that computers and tablets can take various inputs (voice or picture/video) and synthesize various outputs (podcasts, slideshows/powerpoints, edited video).  The issue that Teacher C discusses is that of time and professional development as when he was asked how he learned how to use all the various programs, he lamented that much of it was done on his own with some provided by the district.  While teachers are granted regular prep blocks, it seems that there is more needed (and unbroken sessions of time) for the planning and implementation of these programs.  It is and always will be an issue but discussions about the realistic and pragmatic time needed and provided to teachers to work with these technologies will always be necessary.

The other question that Case 3 touched on was that of whether technology’s ability to remove more menial components of tasks is a detriment to skill development.  Teacher A mentions that measuring lengths and angles and using other tools are certainly skills in their own right, but also rightly points out that technology proves more time efficient by removing the more mundane tasks so that students can quickly get to the concepts at hand.  Developing fundamental skills may or may not necessary to accomplish a certain task (ie- one does not need to know how to develop film in a dark room to take a photo), but it does help to provide a depth of understanding.  Perhaps one of the approaches to this issue is to have a department discussion on how to develop these skills in earlier grades and transition towards more complex technology use in the higher grades.

I feel that these considerations are useful when thinking about how to integrate technology with any past activities or methods that teachers felt comfortable with.

After reviewing all of the video cases presented, there were a few things that stuck with me. The first one is that the more things change, the more the seem to stay the same. I was surprised to see that pre-service teachers had little exposure or teaching regarding technology and its use in the classroom, in spite of this being an important aspect of the need for 21st century learning skills, and that, when they were shown how to use various programs and hardware, they were still reluctant to incorporate this into their classroom teaching and learning plans. Particularly in Case 4, many of the teachers acknowledged the the integration of technology is important, and what they were learning was interesting and engaging, they stated that they would still be reluctant to use it in their own classroom because they were not “experts” and it would take too much time to implement it. I still find it odd that there are people who still consider themselves not “tech savvy”. To me this is like saying you are not math smart. Everyone is math smart and everyone can be tech savvy, it is a learning experience, not an innate talent. This tells me that there is not enough technology education for educators to allow them to feel competent about including this as part of their teaching. Many of the teachers using the technology in the classroom stated that they had educated themselves by taking classes, or learning from others, or just trying things out on their own. Many pre-service teachers seemed to be not willing or able to put the required time in to learning or using technology with their students.

Technology should not be used for the sake of using technology, it should be integrated as seamlessly as possible into the daily routine of the classroom, as a tool, not as a special event. Unfortunately, in many cases, this is impossible due to the lack of available devices. If a teacher has to sign out the devices well in advance it becomes a logistical nightmare to arrange the curriculum to be at the point when you can get the devices. Many projects require the devices to be available every day for most of the day, which is impossible in the sign them out scenarios. In a lot of cases, teachers will forgo using the technology and revert to older ways just for ease of use. This is one of my issues in the classroom. I would love to be able to teach my students how to use a variety of programs as the need arises, and as they would do in their future lives. You need to use programs, software, and devices for specific purposes and times. My computer is on all day with usually about 5-10 tabs open at any one time. I am constantly switching between programs and platforms as I go about my day planning, grading, researching, and creating. These are skills that my students need to learn also, but it would require a 1:1 classroom, which is impossible at the moment. This means it is very difficult to move into the 3rd stage of integration where students are using the tech to learn at their own pace. It seems to me that although there is a push from the ministry and school boards to integrate technology, there is not the equipment or training available to make this a reality.

The last thing that caught my attention was that a lot of the technology being used seemed to be older technology. In particular I was surprised to see Clickers being used in the post secondary classroom. I used them when they first came out and agree with everything the professor was saying, they do engage the students more as they are being made accountable for their learning in a large environment, it is easy to participate as they are anonymous in that they are numbered instead of names, however it is important for everyone to participate because you can see when someone has not responded. However, Clickers would be an expensive proposition for a class of 100 students, especially when there are programs like Kahoot or Plickers that utilize phones and personal devices to do a very similar activity. Of course, Clickers would likely be a one time expense and could be used very effectively for a number of classes over many years.

Overall, it seems that technology is advancing at a great rate in terms of its applicability to the classroom and the variety of programs and platforms available to use, but technology education, training, and understanding seems to continue to lag behind. I think that there should be a mandatory course or courses for the education of pre-service teachers in the use of technology in the classroom. This is the future.

It is an understatement to say that Teacher F is a fan of the TI-83.  The issue that he raised that was most compelling to me was the notion that using technology within the classroom is a way to bring the boys back into the academic arena.  I would also agree that in the last ten years, girls have been dominating in both my Math 10 and Physics 11/12 courses. Another voice on this issue would be Stanford professor and psychologist Philip Zimbardo, who did a Ted Talk a few years ago titled, “The Demise of Guys?” (< 5 minutes, if you have a moment).  Even today, I attended a meeting with my son’s Grade 5 teacher who remarked that Jaxon is the first to finish the worksheet, the journal entry, the art work, etc., however, when it comes to anything that is technology-based, he is the last to finish. In these activities, he goes beyond the minimum requirements; he loses himself in the task. As my family will be attending two Late French Immersion Open houses this week, I will be definitely favouring the school that has a better grasp on weaving technology into the curriculum, as it is clear to me that this is where my son shines.

On the topic of gender differences in technology-based environments, Teacher A raised a couple of interesting issues, as well. He noted that girls prefer to experiment with the computer simulations on their own, saving themselves any embarrassment as they navigate through their learning process, whereas boys appreciate the immediate gratification that technology can afford in the lab.  In my experience, most people would prefer to save themselves from any embarrassing moments in their high school career! In the two years that I have been integrating technology into my courses with purpose, I have equal numbers of sexes come to me with inhibitions and apprehensions. Being a female teacher, it is very possible that my female students have more confidence in themselves, and hence ask fewer questions.  (At least 50% of my students in Physics are female; sometimes more.)

Questions that I would like to leave with…

1. Does student engagement increase with the incorporation of technology into a unit?
2. Does engagement differ between male students and female students?
3. If there are gender differences surrounding student engagement, what are they and where do they stem from?