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Andragogy From Wikipedia, the free encyclopedia Andragogy consists of learning strategies focused on adults. It is often interpreted as the process of engaging adult learners with the structure of learning experience. The term 'andragogy' has been used in different times and countries with various connotations. Nowadays there exist mainly three understandings: 1. In many countries there is a growing conception of 'andragogy' as the scholarly approach to the learning of adults. In this connotation andragogy is the science of understanding (= theory) and supporting (= practice) lifelong and lifewide education of adults. 2. Especially in the USA, 'andragogy' in the tradition of Malcolm Knowles, labels a specific theoretical and practical approach, based on a humanistic conception of self-directed and autonomous learners and teachers as facilitators of learning. 3. Widely, an unclear use of andragogy can be found, with its meaning changing (even in the same publication) from 'adult education practice' or 'desirable values' or 'specific teaching methods,' to 'reflections' or 'academic discipline' and/or 'opposite to childish pedagogy', claiming to be 'something better' than just 'Adult Education'. The oldest document using the term "Andragogik": Kapp, Alexander (1833): Platon's Erziehungslehre, als Pädagogik für die Einzelnen und als Staatspädagogik. Leipzig. Originally used by Alexander Kapp (a German educator) in 1833, andragogy was developed into a theory of adult education by the American educator Malcolm Knowles. Knowles asserted that andragogy (Greek: "man-leading") should be distinguished from the more commonly used pedagogy (Greek: "child-leading"). Knowles' theory can be stated with six assumptions related to motivation of adult learning:[1][2] Adults need to know the reason for learning something (Need to Know) Experience (including error) provides the basis for learning activities (Foundation). Adults need to be

Andragogy From Wikipedia, the free encyclopedia Andragogy consists of learning strategies focused on adults. It is often interpreted as the process of engaging adult learners with the structure of learning experience. The term 'andragogy' has been used in different times and countries with various connotations. Nowadays there exist mainly three understandings: 1. In many countries there is a growing conception of 'andragogy' as the scholarly approach to the learning of adults. In this connotation andragogy is the science of understanding (= theory) and supporting (= practice) lifelong and lifewide education of adults. 2. Especially in the USA, 'andragogy' in the tradition of Malcolm Knowles, labels a specific theoretical and practical approach, based on a humanistic conception of self-directed and autonomous learners and teachers as facilitators of learning. 3. Widely, an unclear use of andragogy can be found, with its meaning changing (even in the same publication) from 'adult education practice' or 'desirable values' or 'specific teaching methods,' to 'reflections' or 'academic discipline' and/or 'opposite to childish pedagogy', claiming to be 'something better' than just 'Adult Education'. The oldest document using the term "Andragogik": Kapp, Alexander (1833): Platon's Erziehungslehre, als Pädagogik für die Einzelnen und als Staatspädagogik. Leipzig. Originally used by Alexander Kapp (a German educator) in 1833, andragogy was developed into a theory of adult education by the American educator Malcolm Knowles. Knowles asserted that andragogy (Greek: "man-leading") should be distinguished from the more commonly used pedagogy (Greek: "child-leading"). Knowles' theory can be stated with six assumptions related to motivation of adult learning:[1][2] Adults need to know the reason for learning something (Need to Know) Experience (including error) provides the basis for learning activities (Foundation). Adults need to be

Andragogy From Wikipedia, the free encyclopedia Andragogy consists of learning strategies focused on adults. It is often interpreted as the process of engaging adult learners with the structure of learning experience. The term 'andragogy' has been used in different times and countries with various connotations. Nowadays there exist mainly three understandings: 1. In many countries there is a growing conception of 'andragogy' as the scholarly approach to the learning of adults. In this connotation andragogy is the science of understanding (= theory) and supporting (= practice) lifelong and lifewide education of adults. 2. Especially in the USA, 'andragogy' in the tradition of Malcolm Knowles, labels a specific theoretical and practical approach, based on a humanistic conception of self-directed and autonomous learners and teachers as facilitators of learning. 3. Widely, an unclear use of andragogy can be found, with its meaning changing (even in the same publication) from 'adult education practice' or 'desirable values' or 'specific teaching methods,' to 'reflections' or 'academic discipline' and/or 'opposite to childish pedagogy', claiming to be 'something better' than just 'Adult Education'. The oldest document using the term "Andragogik": Kapp, Alexander (1833): Platon's Erziehungslehre, als Pädagogik für die Einzelnen und als Staatspädagogik. Leipzig. Originally used by Alexander Kapp (a German educator) in 1833, andragogy was developed into a theory of adult education by the American educator Malcolm Knowles. Knowles asserted that andragogy (Greek: "man-leading") should be distinguished from the more commonly used pedagogy (Greek: "child-leading"). Knowles' theory can be stated with six assumptions related to motivation of adult learning:[1][2] Adults need to know the reason for learning something (Need to Know) Experience (including error) provides the basis for learning activities (Foundation). Adults need to be

Great resource for teachers (especially those of us not initially trained in Computer Science) about what should 'count' as Computer Science.  Worth the read!

The British government is proposing that Twitter is to be taught in primary (elementary) schools as part of a wider push to make online communication and social media a permanent part of the UK's education system. And that's not all. Kids will be taught blogging, podcasting and how to use Wikipedia alongside Maths, English and Science.

Valuable points about coaching - makes me want my own coach!

"A programme that brings live fish into classrooms to teach the fundamentals of biology not only helps students learn, but improves their attitudes about science, a new study finds. The study of nearly 20,000 K-12 students, who raised zebrafish from embryos over the course of a week, found that kids at all grade levels showed significant learning gains. They also responded more positively to statements such as "I know what it's like to be a scientist." The results, to be published by the journal PLOS Biology, suggest that an immersive experience with a living creature can be a particularly successful strategy to engage young people in science, technology, engineering and maths."

As thousands take to the streets as part of a global 'March for Science' it is worth considering the significant role that education has to play. What are the messages we need to send our students about science and what role have schools played in creating the current climate? Now seems like the time to pause and reflect on the place of science in our community and our schools.

"You know everyone learns differently. Do you think you learn better through words or pictures? Did you know you learn different subjects with different sides of the brain? Welp, they were wrong. Many of the theories of "brain-based" education, a method of instruction supposedly based on neuroscience, have been largely debunked by rigorous science."

Thanks for sharing .This is well done! I teach a Psychology course designed to develop students' critical thinking about such "myths." Here is a list of others: Lilienfeld, S. O., Lynn, S. J., Ruscio, J., and Beyerstein, B. L (2010). 50 Great Myths of Popular Psychology: Shattering Widespread Misconceptions about Human Behavior. Malden, MA: Wiley-Blackwell.

"The Computer Science Teachers Association is a membership organization that supports and promotes the teaching of computer science and other computing disciplines. CSTA provides opportunities for K-12 teachers and students to better understand the computing disciplines and to more successfully prepare themselves to teach and learn."

TED@Palm Springs presentation on game-based learning; creation of "immersive learning environments." Meyers, A. (2009). A Vision for 21st Century Learning [Video]. Retrieved from http://www.youtube.com/watch?v=Mirxkzkxuf4

I disliked this video. Is my classroom extraordinary? The rest of the classrooms in the U.S. have unmoving, silent children stuck in desks all day? The students don't talk to each other? They don't collaborate to solve problems? They don't read? They don't write in order to analyze and express opinions? They don't use math manipulatives, do science experiments, build, draw, and do projects? They don't laugh together, digress, and then get back on track? Because that's what we do. It doesn't strike me as a response to the Industrial Revolution as much as a response to students' curiosity and to their future needs. "If we get it right, kids won't even know they're learning something." So, we're doing it wrong if the kids are actually aware that they're learning? Better they should be metaphorically anesthetized by the computer experience? We don't want them inoculated against feeling the discomfort of struggle. Every respected neuroscientist on the planet says struggle is necessary to wire neurons together, which is the physical manifestation of learning. The simulation of the village looks very cool. I love computers. But if all their learning about ancient Rome is based on this simulation, where are the primary sources? Will students encounter any? Or is their experience of the village based on someone else's interpretation of primary sources? If so, then someone else gets to decide what is important to include in the Roman village. They get to choose and interpret the facts that are used to create the virtual ancient Roman experience. That goes against best practice teaching of the social sciences.

"The Technology Integration Matrix (TIM) provides a foundation for professional development for technology integration and a common vocabulary for talking about effective uses of technology in teaching and learning."

"The Technology Integration Matrix (TIM) provides a foundation for professional development for technology integration and a common vocabulary for talking about effective uses of technology in teaching and learning."

"The Technology Integration Matrix (TIM) provides a foundation for professional development for technology integration and a common vocabulary for talking about effective uses of technology in teaching and learning."

Quantum Victoria will deliver an online professional development module that will equip teachers with the skills and tools necessary for teaching in 21st century learning environments. This embedded professional development opportunity will focus primarily on project-based learning (PBL) and the effective integration of ICT in the areas of science, technology, engineering and mathematics. ... [more]

Every year, Intel honors U.S. schools demonstrating excellence in math and science education through innovative teaching and learning environments. To be considered as an Intel School of Distinction, schools must develop an environment and curricula that meet or exceed benchmarks put forth by national mathematics and science content standards.

Learning and teaching in higher education is experiencing rapid change, in part, as a result of the influences of emerging technologies. These proceedings are the refereed papers of the 2nd Annual Conference on Emerging Technologies conducted by the University of Wollongong's Centre for Educational Development and Interactive Resources (CEDIR) and the Faculty of Education's Research Centre for Interactive Learning Environments (RILE) between 18 - 20 June 2008. The conference provided a showcase for research into these technologies and an insight into the way they can be used to promote meaningful learning in the higher education sector. Papers have undergone a double blind peer refereeing process to Department of Education, Science and Training (DEST) standards. The papers have been assessed as providing information that increases the stock of knowledge and the use of this knowledge to devise new applications; they are original and have the potential to produce results; they represent substantial scholarly activity; and they have validity through a peer validation process. Further details of refereeing are included in the Conference Program available below.

For the first time, research shows that American creativity is declining. What went wrong-and how we can fix it.

In the final weeks of 2017 a new Science & Technology Curriculum for Kindergarten to Year Six slipped into the schools of New South Wales. What does this new curriculum bring and what does it reveal about the nature of learning as we approach the year 2020?

So many issues here to deal with. Good read.

article discussing whether math models can replace other tools for understanding the world.

I dissagree. Maybe for someone who can cope with the massive scale Google works with but for the average student bah humbug. As far as the students I see the scientific method still needs to be taught as they need a lot of help learning how to gather reliable information from the web. As far as google is concerned the students simplistic, unevaluated searches are as valuable as someone who actually understands what they are looking for or maybe more valuable because more students are doing almost thoughtless searches. The real need is a good course, hopefully online, to teach students how to do a reasoned search. agoogleaday is a start.

"Teaching Adaptive Mindsets Improves Achievement Programs that teach students to have adaptive mindsets have recently received increased attention among educators and policy makers. These programs help students think about school in ways that help them stay motivated and engaged, even when coursework is challenging. In addition to being effective at improving students' motivation and achievement, they are also brief and easy to administer. PERTS Teaches Adaptive Mindsets on a National Scale Because of the promise of mindset programs, the White House Office of Technology and Science Policy recently hosted a convening to explore ways to apply mindset programs more broadly. An important outcome of this meeting was a plan to conduct a national study that will deliver mindset programs in a large, nationally representative sample. PERTS has expertise in delivering mindset programs across the nation, and we will take a lead in conducting the national study. The National Mindset Pilot is the first step."