The Syrian people’s uprising began as a struggle over social and economic conditions, a fight for democracy in place of repression. Now it has been hijacked by regional and global conflicts
If there is a constant in the history of the countries of the Levant, it is the conflict between the aspirations of their inhabitants for freedom, and the realpolitik that has led to the sacrifice of those aspirations to the geostrategic interests of foreign powers.
According to San Jose State University researcher Ziming Lu, this is typical “screen-based reading behavior,” with more time spent browsing, scanning and skimming than in-depth reading. As reading experiences move online, experts have been exploring how reading from a screen may be changing our brains. Reading expert Maryanne Wolf, author of Proust and the Squid, has voiced concerns that digital reading will negatively affect the brain’s ability to read deeply for sophisticated understanding, something that Nicholas Carr also explored in his book, The Shallows. Teachers are trying to steer students toward digital reading strategies that practice deep reading, and nine out of ten parents say that having their children read paper books is important to them.
“Digital reading is good in some ways, and bad in others,” he said: in other words, it’s complicated.
According to Julie Coiro, a reading researcher at the University of Rhode Island, moving from digital to paper and back again is only a piece of the attention puzzle: the larger and more pressing issue is how reading online is taxing kids’ attention. Online reading, Coiro noticed, complicates the comprehension process “a million-fold.”
Each time a student reads online content, Coiro said, they are faced with almost limitless input and decisions, including images, video and multiple hyperlinks that lead to even more information. As kids navigate a website, they must constantly ask themselves: is this the information I’m looking for?
Faking it: how selfie dysmorphia is driving people to seek surgery
Filters have never been more prevalent – and it’s leading some people to have fillers, Botox and other procedures. What’s behind the obsessive pursuit of a flawless look?
The phenomenon of people requesting procedures to resemble their digital image has been referred to – sometimes flippantly, sometimes as a harbinger of end times – as “Snapchat dysmorphia”. The term was coined by the cosmetic doctor Tijion Esho, founder of the Esho clinics in London and Newcastle.
A recent report in the US medical journal JAMA Facial Plastic Surgery suggested that filtered images’ “blurring the line of reality and fantasy” could be triggering body dysmorphic disorder (BDD), a mental health condition where people become fixated on imagined defects in their appearance.
A 2017 study into “selfitis”, as the obsessive taking of selfies has been called, found a range of motivations, from seeking social status to shaking off depressive thoughts and – of course – capturing a memorable moment. Another study suggested that selfies served “a private and internal purpose”, with the majority never shared with anyone or posted anywhere – terabytes, even petabytes of photographs never to be seen by anyone other than their subject.
However, a 2017 study in the journal Cognitive Research: Principles and Implications found that people only recognised manipulated images 60%-65% of the time.
Scholars want peers to find—and cite—their research, and these days that increasingly happens on social media. The old adage ‘publish or perish’ could soon go digital as ‘clicks or canned.’
Several platforms have emerged over the past decade, offering researchers the chance to share their work and connect with other scholars. But some of those services have a bad rap from academics who say commercial sites lack the integrity of institutional repositories run by traditional universities. (Among the most widely-villified are ResearchGate and Academia.edu, which is evident by griping on social media and elsewhere.)
a 2015 paper comparing services and tools offered by various academic social networks, says researchers must weigh the benefits and drawbacks of each. “They can be great tools to advance your research, especially social research,” she says. “But just like with Facebook or any other social network, we need to be aware of potential issues we might have with copyright or privacy.”
Academia.edu is the largest of the academic social networks.
Created as a reference-management tool to help users organize their research, Mendeley also includes a number of social-networking features.
Scholabrate. The service claims to provide a more Facebook-esque, visual experience for academics seeking to network with others in their field.
Similar to Mendeley, Zotero functions primarily as a research tool, allowing users to collect, save, cite and share materials from a wide range of sources. The site also maintains a significant community of academics who can connect through groups and forums, or through their search engine.
Eureka: machine learning tool, brainstorming engine. give it an initial idea and it returns similar ideas. Like Google: refine the idea, so the machine can understand it better. create a collection of ideas to translate into course design or others.
Netlix:
influencers and microinfluencers, pre- and doing the execution
a machine can construct a book with the help of a person. bionic book. machine and person working hand in hand. provide keywords and phrases from lecture notes, presentation materials. from there recommendations and suggestions based on own experience; then identify included and excluded content. then instructor can construct.
Design may be the least interesting part of the book for the faculty.
multiple choice quiz may be the least interesting part, and faculty might want to do much deeper assessment.
use these machine learning techniques to build assessment. how to more effectively. inquizitive is the machine learning
students engagements and similar prompts
presence in the classroom: pre-service teachers class. how to immerse them and practice classroom management skills
First class: marriage btw VR and use of AI – an environment headset: an algorithm reacts how teachers are interacting with the virtual kids. series of variables, oppty to interact with present behavior. classroom management skills. simulations and environments otherwise impossible to create. apps for these type of interactions
facilitation, reflection and research
AI for more human experience, allow more time for the faculty to be more human, more free time to contemplate.
Jason: Won’t the use of AI still reduce the amount of faculty needed?
Christina Dumeng: @Jason–I think it will most likely increase the amount of students per instructor.
Andrew Cole (UW-Whitewater): I wonder if instead of reducing faculty, these types of platforms (e.g., analytic capabilities) might require instructors to also become experts in the various technology platforms.
Dirk Morrison: Also wonder what the implications of AI for informal, self-directed learning?
Kate Borowske: The context that you’re presenting this in, as “your own jazz band,” is brilliant. These tools presented as a “partner” in the “band” seems as though it might be less threatening to faculty. Sort of gamifies parts of course design…?
Dirk Morrison: Move from teacher-centric to student-centric? Recommender systems, AI-based tutoring?
Andrew Cole (UW-Whitewater): The course with the bot TA must have been 100-level right? It would be interesting to see if those results replicate in 300, 400 level courses
In simple words, a blockchain is a ledger that records transactions of a certain type. It uses mathematical functions such as integer factorization, which is easy to solve in one direction but hard in the other direction for security.
Quantum entanglement is a phenomenon in which the quantum states of two or more objects have to be described with reference to each other, even though the individual objects may be spatially separated.
What’s the future of blockchain in the world of Quantum computing?
One of the potential solutions is Quantum Blockchain, which uses quantum cryptography. This has been proposed by Del Rajan and Matt Visser of Victoria University of Wellington in New Zealand. The idea is simple — if computers can compute fast, make the puzzle more complex.
Both jazz and classical art forms require not only music literacy, but for the musician to be at the top of their game in technical proficiency, tonal quality and creativity in the case of the jazz idiom. Jazz masters like John Coltrane would practice six to nine hours a day, often cutting his practice only because his inner lower lip would be bleeding from the friction caused by his mouth piece against his gums and teeth. His ability to compose and create new styles and directions for jazz was legendary. With few exceptions such as Wes Montgomery or Chet Baker, if you couldn’t read music, you couldn’t play jazz.
Besides the decline of music literacy and participation, there has also been a decline in the quality of music which has been proven scientifically by Joan Serra, a postdoctoral scholar at the Artificial Intelligence Research Institute of the Spanish National Research Council in Barcelona. Joan and his colleagues looked at 500,000 pieces of music between 1955-2010, running songs through a complex set of algorithms examining three aspects of those songs:
1. Timbre- sound color, texture and tone quality
2. Pitch- harmonic content of the piece, including its chords, melody, and tonal arrangements
3. Loudness- volume variance adding richness and depth
In an interview, Billy Joel was asked what has made him a standout. He responded his ability to read and compose music made him unique in the music industry, which as he explained, was troubling for the industry when being musically literate makes you stand out. An astonishing amount of today’s popular music is written by two people: Lukasz Gottwald of the United States and Max Martin from Sweden, who are both responsible for dozens of songs in the top 100 charts. You can credit Max and Dr. Luke for most the hits of these stars:
Katy Perry, Britney Spears, Kelly Clarkson, Taylor Swift, Jessie J., KE$HA, Miley Cyrus, Avril Lavigne, Maroon 5, Taio Cruz, Ellie Goulding, NSYNC, Backstreet Boys, Ariana Grande, Justin Timberlake, Nick Minaj, Celine Dion, Bon Jovi, Usher, Adam Lambert, Justin Bieber, Domino, Pink, Pitbull, One Direction, Flo Rida, Paris Hilton, The Veronicas, R. Kelly, Zebrahead
Integrating technology into your teaching practice can be intimidating. Where do you start? What tools do you choose? What are the questions you need to ask?
In Selecting the Right Tech Solutions for Your Classroom, you’ll get the guidance you need to thrive with edtech, whether you’re just dipping your toe in or rethinking a districtwide approach. Throughout the course, you’ll engage in online content, develop materials specific to your context and receive feedback from experts. The course culminates with a capstone project that can be used to communicate with stakeholders about your selected technology, your rationale for choosing it and how you’ll implement it.