It’s much more likely that students will get lit up by learning if they come in for office hours and they present a very imperfect argument and the teacher says, the mentor says, that’s not really right. That’s not really where it should be, but come back again. Come back here again. I’ll be here for you again.
So many faculty are kind of going in the opposite direction or saying we’re putting things online and you can take the course online.
definition flipped classroom
In a flipped classroom the idea is the students are learning the technical material at home and then the classroom time is designed to be about discussion of the material and questions about the material.
part of the narrative of a flipped classroom is that it’s somehow responding to a crisis of a deadened classroom instead of an enlivened classroom and that isn’t necessarily true.
an open laptop or an open iPad opens up a kind of cone of silence and attentional disarray around itself because students’ attention has sort of been taken by the open device.
We’re not using the technology really the way we should. And I think that education is a tough case because so much has been pitched and so much has been sold. Schools have been told that this is the future, and parents are told that this is the future. Actually, it’s not clear, it’s not clear how much of this is the future and how much some of this is just our feeling
21st-century trends such as makerspaces, flipped learning, genius hour, gamification, and more.
EdLeader21, a national network of Battelle for Kids.has developed a toolkit to guide districts and independent schools in developing their own “portrait of a graduate” as a visioning exercise. In some communities, global citizenship rises to the top of the wish list of desired outcomes. Others emphasize entrepreneurship, civic engagement, or traits like persistence or self-management.
ISTE Standards for Students highlight digital citizenship and computational thinking as key skills that will enable students to thrive as empowered learners. The U.S. Department of Education describes a globally competent student as one who can investigate the world, weigh perspectives, communicate effectively with diverse audiences, and take action.
Frameworks provide mental models, but “don’t usually help educators know what to do differently,” argues technology leadership expert Scott McLeod in his latest book, Harnessing Technology for Deeper Learning. He and co-author Julie Graber outline deliberate shifts that help teachers redesign traditional lessons to emphasize goals such as critical thinking, authenticity, and conceptual understanding.
1. Wondering how to teach and assess 21st-century competencies? The Buck Institute for Education offers a wide range of resources, including the book, PBL for 21st Century Success: Teaching Critical Thinking, Collaboration, Communication, and Creativity (Boss, 2013), and downloadable rubrics for each of the 4Cs.
2. For more strategies about harnessing technology for deeper learning,listen to the EdSurge podcast featuring edtech expert and author Scott McLeod.
3. Eager to see 21st-century learning in action? Getting Smart offers suggestions for using school visits as a springboard for professional learning, including a list of recommended sites. Bob Pearlman, a leader in 21st century learning, offers more recommendations.
Colleges around the country have also started hiring staff members with titles like OER Coordinator and Affordable Content Librarian. Our series looked into how the movement is changing, and the research into the costsand benefits. You can even hear a podcast version here.
Flipped classrooms seem to be growing exponentially
Robert Talbert, a professor of mathematics at Grand Valley State University and author of the book Flipped Learning. Talbert recently tabulated how many scholarly articles are published each year about “flipping” instruction, meaning that traditional lecture-style material is delivered before class (often using videos) so that classroom time can be used for discussion and other more active learning.
More professors are looking to experts to help them teach. (Though some resist.)
By 2016, there were an estimated 13,000 instructional designers on U.S. campuses, according to a report by Intentional Futures. And that number seems to be growing.
There’s also a growing acceptance of the scholarly discipline known as “learning sciences,” a body of research across disciplines of cognitive science, computer science, psychology, anthropology and other fields trying to unlock secrets of how people learn and how to best teach.
Students are also finding their own new ways to learn online, by engaging in online activism. The era of a campus bubble seems over in the age of Twitter
Colleges are still struggling to find the best fit for online education
And what does it mean to teach an age of information overload and polarization?
Perhaps the toughest questions of all about teaching in the 21st century is what exactly is the professor’s role in the Internet age. Once upon a time the goal was to be the ‘sage on the stage,’ when lecturing was king. Today many people argue that the college instructor should be more of a ‘guide on the side.’ But as one popular teaching expert notes, even that may not quite fit.
And in an era of intense political polarization, colleges and professors are looking for best to train students to become digitally literate so they can play their roles as informed citizens. But just how to do that is up for debate, though some are looking for a nonpartisan solution.
CALL FOR CHAPTER PROPOSALS Proposal Submission Deadline: February 12, 2019 Leveraging Technology for the Improvement of School Safety and Student Wellbeing
A book edited by Dr. Stephanie Huffman, Dr. Stacey Loyless, Dr. Shelly Allbritton, and Dr. Charlotte Green (University of Central Arkansas)
Introduction
Technology permeates all aspects of today’s school systems. An Internet search on technology in schools can generate millions of website results. The vast majority of these websites (well over 8,000,000 results for one simple search) focuses on advice, activities, and uses of technology in the classroom. Clearly teaching and learning with technology dominates the literature and conversations on how technology should or could be used in classroom settings. A search on school safety and technology can produce more than 3,000,000 results with many addressing technological tools such as video cameras, entry control devices, weapon detectors, and other such hardware. However, in recent times, cyberbullying appears to dominate the Internet conversations in references to school safety. With an increase in school violence in the past two decades, school safety is a fundamental concern in our nation’s schools. Policy makers, educators, parents, and students are seeking answers in how best to protect the physical, emotional, and social well-being of all children.
Objective of the Book
The proposed edited book covers the primary topic of P-12 school safety and the use of technology and technology used for fostering an environment in which all students can be academically successful and thrive as global citizens. School safety is defined as the physical, social, and emotional well-being of children. The book will comprise empirical, conceptual and case based (practical application) research that craft an overall understanding of the issues in creating a “safe” learning environment and the role technology can and should play; where a student’s well-being is valued and protected from external and internal entities, equitable access is treasured as a means for facilitating the growth of the whole student, and policy, practices, and procedures are implemented to build a foundation to transform the culture and climate of the school into an inclusive nurturing environment.
Target Audience
The target audience is leadership and education scholars, leadership practitioners, and technology coordinators. This book will be used as a collective body of work for the improvement of K-12 schools and as a tool for improving leadership and teacher preparation programs. School safety is a major concern for educators. Technology has played a role in creating unsafe environments for children; however it also is an avenue for addressing the challenges of school safety
Recommended topics include, but are not limited to, the following:
Section I – Digital Leadership
Technology as a Climate and Cultural Transformation Tool
School Leadership in the Digital Age: Building a Shared Vision for all Aspects of Learning and Teaching
Ensuring Equity within a “One to One” Technology Framework
Infrastructure within Communities
Accessible WiFi for Low SES Students
Developing Culturally Responsive Pedagogy
Professional Development for School Leaders
Section II – Well Being
Social Media and School Safety: Inputs and Outputs
Tip lines: Crime, Bullying, Threats
Communication and Transparency
Platform for Social Justice
Teaching Strategies to Promote Healthy Student Interactions in Cyberspace (Digital Citizenship?)
Building Capacity and Efficacy, Platform to lower incidence of Cyber-Bullying, Boosting Instructional Engagement
Literacy and Preparedness for the Influence and Consequence of Digital Media Marketing Campaigns directed toward Children, Adolescents, and Teens.
Pioneering Innovative Technology Program in Curriculum: Fostering “Belonging” beyond Athletics & Arts.
Competence in the Blended/Hybrid/Flipped Classroom
Technology to enhance learning for all
Assistive Technology
Accessibility issues
Internet access for Low SES Students in the Blended/Hybrid/Flipped Classroom
Personal Learning Design
Differentiation for Student Efficacy
Strategies for Increasing Depth of Knowledge
Design Qualities for Enhanced Engagement
Submission Procedure
Researchers and practitioners are invited to submit on or before February 12, 2019, a chapter proposal of 1,000 to 2,000 words clearly explaining the purpose, methodology, and a brief summary findings of his or her proposed chapter. Authors will be notified by March 12, 2019 about the status of their proposals and sent chapter guidelines. Full chapters are expected to be submitted by June 12, 2019, and all interested authors must consult the guidelines for manuscript submissions at http://www.igi-global.com/publish/contributor-resources/before-you-write/ prior to submission. See Edited Chapter Template. All submitted chapters will be reviewed on a double-blind review basis. Contributors may also be requested to serve as reviewers for this project.
Note: There are no submission or acceptance fees for manuscripts submitted to this book publication, Leveraging Technology for the Improvement of School Safety and Student Wellbeing. All manuscripts are accepted based on a double-blind peer review editorial process.
Publisher
This book is scheduled to be published by IGI Global (formerly Idea Group Inc.), an international academic publisher of the “Information Science Reference” (formerly Idea Group Reference), “Medical Information Science Reference,” “Business Science Reference,” and “Engineering Science Reference” imprints. IGI Global specializes in publishing reference books, scholarly journals, and electronic databases featuring academic research on a variety of innovative topic areas including, but not limited to, education, social science, medicine and healthcare, business and management, information science and technology, engineering, public administration, library and information science, media and communication studies, and environmental science. For additional information regarding the publisher, please visit http://www.igi-global.com. This publication is anticipated to be released in 2020.
Important Dates February 12, 2019: Proposal Submission Deadline March 12, 2019: Notification of Acceptance June 12, 2019: Full Chapter Submission August 10, 2019: Review Results Returned August 10, 2019: Final Acceptance Notification September 7, 2019: Final Chapter Submission
Inquiries can be forwarded to
Dr. Stephanie Huffman
University of Central Arkansas steph@uca.edu or 501-450-5430
One of the first reviews of OER efficacy tests included 16 studies (Hilton, 2016). The abstract stated that “ … students generally achieve the same learning outcomes when OER are utilized.”
All nine studies had major confounds such as method of instruction (e.g., comparing OER sections that were taught online or blended versus traditional texts used in a face-to-face class). Some studies switched exams between comparisons and some changed course design (e.g., went to a flipped model). Most study authors acknowledged that the type of textbook was not the only factor that changed.
There is promise in the use of OERs. Beyond the “as good as” findings, some studies suggest they could be beneficial. Jhangiani, Dastur, LeGrand and Penner (2018) found students using print OERs (versus digital) did better on one of three exams tested (no differences on the other two, still good news). Is the promise of OER fulfilled? There is not enough to know yet. We have to be tighter in how we assess the efficacy of such materials in particular and higher education innovation in general.
Methodological challenges abound in classroom research on teaching, as learning is complex. Many challenges can be overcome with strong research design. There are benchmarks for conducting research on teaching and learning (Felton, 2013; Wilson-Doenges and Gurung, 2013), and it would be prudent for more educational researchers to use them.
United States digital literacy frameworks tend to focus on educational policy details and personal empowerment, the latter encouraging learners to become more effective students, better creators, smarter information consumers, and more influential members of their community.
National policies are vitally important in European digital literacy work, unsurprising for a continent well populated with nation-states and struggling to redefine itself, while still trying to grow economies in the wake of the 2008 financial crisis and subsequent financial pressures
African digital literacy is more business-oriented.
Middle Eastern nations offer yet another variation, with a strong focus on media literacy. As with other regions, this can be a response to countries with strong state influence or control over local media. It can also represent a drive to produce more locally-sourced content, as opposed to consuming material from abroad, which may elicit criticism of neocolonialism or religious challenges.
p. 14 Digital literacy for Humanities: What does it mean to be digitally literate in history, literature, or philosophy? Creativity in these disciplines often involves textuality, given the large role writing plays in them, as, for example, in the Folger Shakespeare Library’s instructor’s guide. In the digital realm, this can include web-based writing through social media, along with the creation of multimedia projects through posters, presentations, and video. Information literacy remains a key part of digital literacy in the humanities. The digital humanities movement has not seen much connection with digital literacy, unfortunately, but their alignment seems likely, given the turn toward using digital technologies to explore humanities questions. That development could then foster a spread of other technologies and approaches to the rest of the humanities, including mapping, data visualization, text mining, web-based digital archives, and “distant reading” (working with very large bodies of texts). The digital humanities’ emphasis on making projects may also increase
Digital Literacy for Business: Digital literacy in this world is focused on manipulation of data, from spreadsheets to more advanced modeling software, leading up to degrees in management information systems. Management classes unsurprisingly focus on how to organize people working on and with digital tools.
Digital Literacy for Computer Science: Naturally, coding appears as a central competency within this discipline. Other aspects of the digital world feature prominently, including hardware and network architecture. Some courses housed within the computer science discipline offer a deeper examination of the impact of computing on society and politics, along with how to use digital tools. Media production plays a minor role here, beyond publications (posters, videos), as many institutions assign multimedia to other departments. Looking forward to a future when automation has become both more widespread and powerful, developing artificial intelligence projects will potentially play a role in computer science literacy.
In traditional instruction, students’ first contact with new ideas happens in class, usually through direct instruction from the professor; after exposure to the basics, students are turned out of the classroom to tackle the most difficult tasks in learning — those that involve application, analysis, synthesis, and creativity — in their individual spaces. Flipped learning reverses this, by moving first contact with new concepts to the individual space and using the newly-expanded time in class for students to pursue difficult, higher-level tasks together, with the instructor as a guide.
Let’s take a look at some of the myths about flipped learning and try to find the facts.
Myth: Flipped learning is predicated on recording videos for students to watch before class.
Fact: Flipped learning does not require video. Although many real-life implementations of flipped learning use video, there’s nothing that says video must be used. In fact, one of the earliest instances of flipped learning — Eric Mazur’s peer instruction concept, used in Harvard physics classes — uses no video but rather an online text outfitted with social annotation software. And one of the most successful public instances of flipped learning, an edX course on numerical methods designed by Lorena Barba of George Washington University, uses precisely one video. Video is simply not necessary for flipped learning, and many alternatives to video can lead to effective flipped learning environments [http://rtalbert.org/flipped-learning-without-video/].
Fact: Flipped learning optimizes face-to-face teaching. Flipped learning may (but does not always) replace lectures in class, but this is not to say that it replaces teaching. Teaching and “telling” are not the same thing.
Myth: Flipped learning has no evidence to back up its effectiveness.
Fact: Flipped learning research is growing at an exponential pace and has been since at least 2014. That research — 131 peer-reviewed articles in the first half of 2017 alone — includes results from primary, secondary, and postsecondary education in nearly every discipline, most showing significant improvements in student learning, motivation, and critical thinking skills.
Myth: Flipped learning is a fad.
Fact: Flipped learning has been with us in the form defined here for nearly 20 years.
Myth: People have been doing flipped learning for centuries.
Fact: Flipped learning is not just a rebranding of old techniques. The basic concept of students doing individually active work to encounter new ideas that are then built upon in class is almost as old as the university itself. So flipped learning is, in a real sense, a modern means of returning higher education to its roots. Even so, flipped learning is different from these time-honored techniques.
Myth: Students and professors prefer lecture over flipped learning.
Fact: Students and professors embrace flipped learning once they understand the benefits. It’s true that professors often enjoy their lectures, and students often enjoy being lectured to. But the question is not who “enjoys” what, but rather what helps students learn the best.They know what the research says about the effectiveness of active learning
Assertion: Flipped learning provides a platform for implementing active learning in a way that works powerfully for students.
The Exposure Approach: we don’t provide a way for participants to determine if they learned anything new or now have the confidence or competence to apply what they learned.
The Exemplar Approach: from ‘show and tell’ for adults to show, tell, do and learn.
The Tutorial Approach: Getting a group that can meet at the same time and place can be challenging. That is why many faculty report a preference for self-paced professional development.build in simple self-assessment checks. We can add prompts that invite people to engage in some sort of follow up activity with a colleague. We can also add an elective option for faculty in a tutorial to actually create or do something with what they learned and then submit it for direct or narrative feedback.
The Course Approach: a non-credit format, these have the benefits of a more structured and lengthy learning experience, even if they are just three to five-week short courses that meet online or in-person once every week or two.involve badges, portfolios, peer assessment, self-assessment, or one-on-one feedback from a facilitator
The Academy Approach: like the course approach, is one that tends to be a deeper and more extended experience. People might gather in a cohort over a year or longer.Assessment through coaching and mentoring, the use of portfolios, peer feedback and much more can be easily incorporated to add a rich assessment element to such longer-term professional development programs.
The Mentoring Approach: The mentors often don’t set specific learning goals with the mentee. Instead, it is often a set of structured meetings, but also someone to whom mentees can turn with questions and tips along the way.
The Coaching Approach: A mentor tends to be a broader type of relationship with a person.A coaching relationship tends to be more focused upon specific goals, tasks or outcomes.
The Peer Approach:This can be done on a 1:1 basis or in small groups, where those who are teaching the same courses are able to compare notes on curricula and teaching models. They might give each other feedback on how to teach certain concepts, how to write syllabi, how to handle certain teaching and learning challenges, and much more. Faculty might sit in on each other’s courses, observe, and give feedback afterward.
The Self-Directed Approach:a self-assessment strategy such as setting goals and creating simple checklists and rubrics to monitor our progress. Or, we invite feedback from colleagues, often in a narrative and/or informal format. We might also create a portfolio of our work, or engage in some sort of learning journal that documents our thoughts, experiments, experiences, and learning along the way.
In 2014, administrators at Central Piedmont Community College (CPCC) in Charlotte, North Carolina, began talks with members of the North Carolina State Board of Community Colleges and North Carolina Community College System (NCCCS) leadership about starting a CBE program.
Building on an existing project at CPCC for identifying the elements of a digital learning environment (DLE), which was itself influenced by the EDUCAUSE publication The Next Generation Digital Learning Environment: A Report on Research,1 the committee reached consensus on a DLE concept and a shared lexicon: the “Digital Learning Environment Operational Definitions,
But the rationale that I find most disturbing—despite, or perhaps because of, the fact that it’s rarely made explicit—is the idea that technology will increase our efficiency…at teaching the same way that children have been taught for a very long time. Perhaps it hasn’t escaped your notice that ed tech is passionately embraced by very traditional schools: Their institutional pulse quickens over whatever is cutting-edge: instruction that’s blended, flipped, digitally personalized.
We can’t answer the question “Is tech useful in schools?” until we’ve grappled with a deeper question: “What kinds of learning should be taking place in those schools?”
Tarting up a lecture with a SmartBoard, loading a textbook on an iPad, looking up facts online, rehearsing skills with an “adaptive learning system,” writing answers to the teacher’s (or workbook’s) questions and uploading them to Google Docs—these are examples of how technology may make the process a bit more efficient or less dreary but does nothing to challenge the outdated pedagogy. To the contrary: These are shiny things that distract us from rethinking our approach to learning and reassure us that we’re already being innovative.
putting grades online (thereby increasing their salience and their damaging effects), using computers to administer tests and score essays, and setting up “embedded” assessment that’s marketed as “competency-based.” (If your instinct is to ask “What sort of competency? Isn’t that just warmed-over behaviorism?”
But as I argued not long ago, we shouldn’t confuse personalized learning with personal learning. The first involves adjusting the difficulty level of prefabricated skills-based exercises based on students’ test scores, and it requires the purchase of software. The second involves working with each student to create projects of intellectual discovery that reflect his or her unique needs and interests, and it requires the presence of a caring teacher who knows each child well.a recent review found that studies of tech-based personalized instruction “show mixed results ranging from modest impacts to no impact” – despite the fact that it’s remarkably expensive.
an article in Education Week, “a host of national and regional surveys suggest that teachers are far more likely to use tech to make their own jobs easier and to supplement traditional instructional strategies than to put students in control of their own learning.”
OECD reportednegative outcomes when students spent a lot of time using computers, while Stanford University’s Center for Research on Education Outcomes (CREDO) concluded that online charter schools were basically a disaster.
Larry Cuban, Sherry Turkle, Gary Stager, and Will Richardson.
Emily Talmage points out, uncannily aligned with the wish list of the Digital Learning Council, a group consisting largely of conservative advocacy groups and foundations, and corporations with a financial interest in promoting ed tech.
Open Discussion: Instruments and Methods for Formative Assessment: by invitation of teachers from Plovdiv region | Тема: Инструменти и методи за актуални училищни занятия
Where | Къде: СУ „Димитър Матевски“ https://goo.gl/maps/rojNjE3dk4s and online ( виртуално) When | Кога: 2. май, 2018, 14 часа | May 2, 2018, 2PM local time (Bulgaria) Who | Кой: преподаватели и педагози | teachers and faculty How | Как: използвайте “обратна връзка” за споделяне на вашите идеи | use the following hashtag for backchanneling#BGtechEd
Intro | Представяне – 5мин. Who are we (please share short intro about your professional interests) | Кои сме ние: споделете накратко професионалните си интереси (използвайте “comment” section под този блог) http://web.stcloudstate.edu/pmiltenoff/faculty/
Reality Check (before we do tech) | минута за откровение (преди да започнем с технологии):
who is our audience | кого учим/обучаваме? https://blog.stcloudstate.edu/ims/2018/04/21/in-memoriam-avicii/ https://blog.stcloudstate.edu/ims/2018/04/17/edtech-implementation-fails/
why technology application fails | защо се проваля използването на технологии в обучението?
Understanding Purpose | какъв е смисълът
Insufficient Modeling of Best Practices | недостатъчен или несподелен опит
Bad First Impressions | лоши първи впечатления
Real-World Usability Challenges | ежедневни проблеми
The Right Data to Track Progress | кои данни определят успеха
Share your thoughts for the fails | Сподели твоите мисли за провала
Тема1. Сравняване на Kahoot, Edpuzzle и Apester – 1-1, 1/2 час продължителност Topic 1: A comparison of Kahoot, Apester and EdPuzzle
Дискусия, относно методиката на използване. Споделяне на опит кога и как го използват колегите от България и САЩ (други страни?).
Short demonstration and discussion regarding methodology of use. Sharing experience of use.
Споделяне на опит | ideas and experience exchange.
Comparison to other tools (e.g. flipped classroom advantage to Kahoot; difference from EdPuzzle, similarities to EdPuzzle) | съпоставяне с други инструменти: например, обърната класна стая – предимство пред Кахут; разлики и прилики с ЕдПъзил и тн)
Създаване на акаунт | account creation and building of learning objects
Comparison to other tools (e.g. flipped classroom advantage to Kahoot; difference from EdPuzzle, similarities to EdPuzzle) | съпоставяне с други инструменти: например, обърната класна стая – предимство пред Кахут; разлики и прилики с Еиптстър и тн)
Тема 2. Виртуална реалност в учебния процес – теория и практика- 1-1, 1/2 час продължителност Topic 2. Virtual reality in teaching and learning – theory and hands-on
When a student is brilliant on the street corner but falling asleep in class, something is wrong with the schooling system Ако учащ се е страхотен на ъгъла на улицата, но се проваля или заспива в клас, тогава нещо е грешно с учебната система https://blog.stcloudstate.edu/ims/2018/04/17/education-teched-frenemies/
Burgess, D. (2012). Teach like a pirate: Increase student engagement, boost your creativity, and transform your life as an educator. San Diego, Calif.: Dave Burgess Consulting, Inc..
his switch flipped when he learned more about why students like to play games. Games, he said, provide an environment where we get to try without penalty because failure is part of the journey. Everyone can be a hero, and games are goal-oriented and provide, in some ways, a representation of the world students want to be a part of. They’re social and provide positive stress.