In addition to exploring their diverse backgrounds, students will discuss the language challenges graduates face as many work overseas, Hampton said. "They're going to be living in a multilingual context, and that's a really interesting thing for them to think about," he said.
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UC Berkeley orientation: UC Berkeley asks incoming students to say more than 'hello' - ... - 0 views
www.latimes.com/...cents-20110717,0,2416575.story
berkeley orientation students speech samples map mapping
shared by Barbara Lindsey on 17 Jul 11
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The voice samples will be attached anonymously to an interactive world map so other participants can hear them, and each student will be matched through a voice recognition program with five others who have similar pronunciations, Johnson said.
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With about 30% of incoming UC Berkeley students reporting that English was not their first language, exploring that linguistic diversity is a good way to help students feel comfortable at such a large school, faculty organizers said.
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This summer, UC Berkeley is asking new students to submit a less controversial part of themselves: Their voices and accents
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One result will be an analysis of California accents, as researchers try to get beyond such stereotypes as the Surfer Dude, Valley Girl and Central Valley Farmer to study participants' vowel sounds, along with their locations, ethnicity and socioeconomic backgrounds.
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After two years and perhaps again after four, students will be asked to make new recordings to determine whether being at UC homogenized their accents or pushed them into distinctive speech subgroups, Johnson said. (For example, he said, because of his Oklahoma upbringing, he pronounced "Don" and "dawn" identically in one of the experiment's exercises.)
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Among those embracing the project was Chloe Hunt, 18, a freshman from Santa Barbara who said the voice map made her even more curious to meet students from many cultural backgrounds. "It made me think about who I'm going to be sitting next to in class," said Hunt, who learned Farsi from Iranian relatives.
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Leah Grant, 41, who is transferring to UC Berkeley from Long Beach City College, said listening to the voice samples made her feel like part of the university already. The varying approaches also were amusing, she said.
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Planificacion.pdf (application/pdf Object) - 0 views
ponce.inter.edu/...Planificacion.pdf
educacion Bloom BloomsTaxonomy planificacion education assessment learning students
shared by Celeste Arrieta on 18 Mar 10
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If San Francisco Crime were Elevation | Doug McCune - 0 views
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Really nice. Be great to see the two combined – heatmaps and topography or atleast some kind of colour banding added to the topography. That would open up all kinds of possibilities – you could slice horizontally along the bands and create layers of different ranges. In fact mixing colour and topography would also give you a way of showing two sets of data concurrently – topography for prostitution and some kind of colour banding for wealth for example.
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Brilliant work! Can you cross this data with the physical typography? I’ve always been curious if safer neighborhoods are uphill.
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It would be interesting to pull the data in from previous decades and see how the elevation has changed in different areas.
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@adrian – it’s just raw totals, grouped geographically. These aren’t scientific by any means, I basically took the underlying pattern and extruded it out and smoothed it a bit to make it look “pretty”. But basically each image is the aggregate numbers for a single year of crime data.
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@richard – yes, there is some smoothing in effect, which means that the ridge along Shotwell St (for the prostitution map) is indeed a bit smoothed between peaks. That’s not to say that there are only two peaks at Shotwell and 19th and Shotwell and 17th. There are incidents in between as well, but the big peaks at those major intersections does mean that the ridge between them appears higher than the actual incidents along those blocks support. A lot of people have commented on the usefulness of maps like these. I want to stress once again: this was done as an art project much more than a useful visualization. My goal was not to provide useful information that one could act on.
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“one trick pony. these maps add nothing of value to a standard color plot.” I disagree: allowing for a third dimension of elevation makes the reality of concentration clearer – and half the point of crime mapping is to measure concentration, not simply “intensity.”
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Great idea and nice work on the graphics, but there are at least three improvements you should make to reveal *true* patterns. Forgive me if you already did these. 1) Availability bias – normalize for population density (i.e. per capita activity) 2) Sampling bias – normalize for the number of cops on the beat (geographic and crime type) 2) Frame bias – break it up by daytime and night time
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Curricula Designed to Meet 21st-Century Expectations | Resources | EDUCAUSE - 0 views
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W here students had once called a large number of their classes "death by lecture," she noted they were now calling them "death by PowerPoint." >
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here students had once called a large number of their classes "death by lecture," she noted they were now calling them "death by PowerPoint."
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With such specific applications of technology and the limited use of other forms (for example, multimedia), students' low expectations for the use of technology in the curriculum is not surprising. Such constrained use of technology by the faculty in the curriculum and low student expectations may serve to limit innovation and creativity as well as the faculty's capacity to engage students more deeply in their subject matter. Like all organizations, colleges and universities respond to the demands placed upon them. Students' and institutions' low expectations for the use of technology for learning provide insufficient impetus for faculties to change their behavior and make broader, more innovative use of these tools in the service of learning.
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From the beginning, however, a problem arose in that those middle school students went on to high schools and later to colleges that did not (and do not) provide this type of rich learning experience—a learning experience that can best be achieved when technology is used in the service of learning.
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Data obtained from these sessions with high school and college seniors in Indiana, Oregon, and Virginia
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Less attention has been given to how to help students achieve the desired learning outcomes through technology.
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comparatively little support has been devoted to helping faculty use computers and other technologies in creative and innovative ways to deepen student learning.
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To develop intentional learners, the curriculum must go beyond helping students gain knowledge for knowledge's sake to engaging students in the construction of knowledge for the sake of addressing the challenges faced by a complex, global society.
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institutional structures and practices to resolve technical problems that faculty invariably encounter are very limited or are not the type of aid needed. Such lack of support limits the amount of time faculty can spend on what they do best—building a compelling curriculum and integrating technology for more powerful learning.
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Faculty concerns perhaps center less on being "replaceable" and more on worrying that the teaching and learning enterprise will be reduced to students gathering information that can be easily downloaded, causing them to rely too heavily on technology instead of intellect.
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First, traditional age students overwhelmingly prefer face-to-face contact with faculty to mediated communication. Second, technology used in the service of learning will require more—not less—sophistication on the part of students as they engage in processes of integration, translation, audience analysis, and critical judgment.
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Faculty with expertise in one or more subjects, who have been exposed to what we know about how people learn, can determine how to enhance this learning through the use of technology. But simply understanding how to use technology will not provide the integration needed to reach the desired learning outcomes.
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There is a need for integrating technology that is in the service of learning throughout the curriculum. More intentional use of technology to capture what students know and are able to integrate in their learning is needed.
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Convenience, Communications, and Control: How Students Use Technology | Resources | EDU... - 0 views
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Doing is more important than knowing, and learning is accomplished through trial and error as opposed to a logical and rule-based approach.2 Similarly, Paul Hagner found that these students not only possess the skills necessary to use these new communication forms, but there is an ever increasing expectation on their part that these new communication paths be used
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Much of the work to date, while interesting and compelling, is intuitive and largely based on qualitative data and observation.
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There is an inexorable trend among college students to universal ownership, mobility, and access to technology.
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Students were asked about the applications they used on their electronic devices. They reported that they use technology first for educational purposes, followed by communication.
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presentation software was driven primarily by the requirements of the students' major and the curriculum.
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From student interviews, a picture emerged of student technology use driven by the demands of the major and the classes that students take. Seniors reported spending more time overall on a computer than do freshmen, and they reported greater use of a computer at a place of employment. Seniors spent more hours on the computer each week in support of their educational activities and also more time on more advanced applications—spreadsheets, presentations, and graphics.
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Confirming what parents suspect, students with the lowest grade point averages (GPAs) spend significantly more time playing computer games; students with the highest GPAs spend more hours weekly using the computer in support of classroom activities. At the University of Minnesota, Crookston, students spent the most hours on the computer in support of classroom activities. This likely reflects the deliberate design of the curriculum to use a laptop extensively. In summary, the curriculum's technology requirements are major motivators for students to learn to use specialized software.
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The interviews indicated that students are skilled with basic office suite applications but tend to know just enough technology functionality to accomplish their work; they have less in-depth application knowledge or problem solving skills.
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According to McEuen, student technology skills can be likened to writing skills: Students come to college knowing how to write, but they are not developed writers. The analogy holds true for information technology, and McEuen suggested that colleges and universities approach information technology in the same way they approach writing.6
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The comparative literature on student IT skill self-assessment suggests that students overrate their skills; freshmen overrate their skills more than seniors, and men overrate their skills more than women.7 Our data supports these conclusions. Judy Doherty, director of the Student Technologies Resource Group at Colgate University, remarked on student skill assessment, "Students state in their job applications that they are good if not very good, but when tested their skills are average to poor, and they need a lot of training."8
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Mary Jane Smetanka of the Minneapolis–St. Paul Star Tribune reported that some students are so conditioned by punch-a-button problem solving on computers that they approach problems with a scattershot impulsiveness instead of methodically working them through. In turn, this leads to problem-solving difficulties.
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We expected to find that the Net Generation student prefers classes that use technology. What we found instead is a bell curve with a preference for a moderate use of technology in the classroom (see Figure 1).
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It is not surprising that if technology is used well by the instructor, students will come to appreciate its benefits.
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A student's major was also an important predictor of preferences for technology in the classroom (see Table 3), with engineering students having the highest preference for technology in the classroom (67.8 percent), followed by business students (64.3 percent).
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he highest scores were given to improved communications, followed by factors related to the management of classroom activities. Lower impact activities had to do with comprehension of classroom materials (complex concepts).
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The instructors' use of technology in my classes has increased my interest in the subject matter. 3.25 Classes that use information technology are more likely to focus on real-world tasks and examples.
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Interestingly, students do not feel that use of information technology in classes greatly increases the amount of time engaged with course activities (3.22 mean).12 This is in direct contrast to faculty perceptions reported in an earlier study, where 65 percent of faculty reported they perceived that students spend more time engaged with course materials
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Only 12.7 percent said the most valuable benefit was improved learning; 3.7 percent perceived no benefit whatsoever. Note that students could only select one response, so more than 12.7 percent may have felt learning was improved, but it was not ranked highest. These findings compare favorably with a study done by Douglas Havelka at the University of Miami in Oxford, Ohio, who identified the top six benefits of the current implementation of IT as improving work efficiency, affecting the way people behave, improving communications, making life more convenient, saving time, and improving learning ability.14
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Our data suggest that we are at best at the cusp of technologies being employed to improve learning.
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The interactive features least used by faculty were the features that students indicated contributed the most to their learning.
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he students in this study called our attention to performance by noting an uneven diffusion of innovation using this technology. This may be due, in part, to faculty or student skill. It may also be due to a lack of institutional recognition of innovation, especially as the successful use of course management systems affects or does not affect faculty tenure, promotion, and merit decisions
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we found that many of the students most skilled in the use of technology had mixed feelings about technology in the classroom.
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What we found was that many necessary skills had to be learned at the college or university and that the motivation for doing so was very much tied to the requirements of the curriculum. Similarly, the students in our survey had not gained the necessary skills to use technology in support of academic work outside the classroom. We found a significant need for further training in the use of information technology in support of learning and problem-solving skills.
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Course management systems were used most by both faculty and students for communication of information and administrative activities and much less in support of learning.
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In 1997, Michael Hooker proclaimed, "higher education is on the brink of a revolution." Hooker went on to note that two of the greatest challenges our institutions face are those of "harnessing the power of digital technology and responding to the information revolution."18 Hooker and many others, however, did not anticipate the likelihood that higher education's learning revolution would be a journey of a thousand miles rather than a discrete event. Indeed, a study of learning's last great revolution—the invention of moveable type—reveals, too, a revolution conducted over centuries leading to the emergence of a publishing industry, intellectual property rights law, the augmentation of customized lectures with textbooks, and so forth.
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Both the ECAR study on faculty use of course management systems and this study of student experiences with information technology concluded that, while information technology is indeed making important inroads into classroom and learning activities, to date the effects are largely in the convenience of postsecondary teaching and learning and do not yet constitute a "learning revolution." This should not surprise us. The invention of moveable type enhanced, nearly immediately, access to published information and reduced the time needed to produce new publications. This invention did not itself change literacy levels, teaching styles, learning styles, or other key markers of a learning revolution. These changes, while catalyzed by the new technology, depended on slower social changes to institutions. I believe that is what we are witnessing in higher education today.
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The institutions chosen represent a nonrepresentative mix of the different types of higher education institution in the United States, in terms of Carnegie class as well as location, source of funding, and levels of technology emphasis. Note, however, that we consider our findings to be instructive rather than conclusive of student experiences at different types of Carnegie institutions.
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Qualitative data were collected by means of focus groups and individual interviews. We interviewed undergraduate students, administrators, and individuals identified as experts in the field of student technology use in the classroom. Student focus groups and interviews of administrators were conducted at six of the thirteen schools participating in the study.
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Garr Reynolds/Presentations - 0 views
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I draw sample images that I can use to support a particular point, say, a pie chart here, a photo there, perhaps a line graph
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Good presentations include stories. The best presenters illustrate their points with the use of storie
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Good stories have interesting, clear beginnings, provocative, engaging content in the middle, and a clear, logical conclusion
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The Code of Best Practices in Fair Use for Media Literacy Education -- Publications --... - 0 views
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Common instructional activities include comparison-contrast analysis, deconstruction (close analysis) of the form and content of a message, illustration of key points, and examination of the historical, economic, political, or social contexts in which a particular message was produced and is received.
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These materials may include samples of contemporary mass media and popular culture as well as older media texts that provide historical or cultural context.
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Educators using concepts and techniques of media literacy should be able to share effective examples of teaching about media and meaning with one another, including lessons and resource materials
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Students include excerpts from copyrighted material in their own creative work for many purposes, including for comment and criticism, for illustration, to stimulate public discussion, or in incidental or accidental ways (for example, when they make a video capturing a scene from everyday life where copyrighted music is playing).
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Because media literacy education cannot thrive unless learners themselves have the opportunity to learn about how media functions at the most practical level, educators using concepts and techniques of media literacy should be free to enable learners to incorporate, modify, and re-present existing media objects in their own classroom work. Media production can foster and deepen awareness of the constructed nature of all media, one of the key concepts of media literacy. The basis for fair use here is embedded in good pedagogy.
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Students who are expected to behave responsibly as media creators and who are encouraged to reach other people outside the classroom with their work learn most deeply.
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In some cases, widespread distribution of students’ work (via the Internet, for example) is appropriate. If student work that incorporates, modifies, and re-presents existing media content meets the transformativeness standard, it can be distributed to wide audiences under the doctrine of fair use.
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educators should take the opportunity to model the real-world permissions process, with explicit emphasis not only on how that process works, but also on how it affects media making.
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News: The Mobile Campus - Inside Higher Ed - 0 views
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Powell’s experiment, however, demonstrates the current limitations of Abilene Christian’s mobile learning study. Because the experiment took place on such a small scale, the margins of error were sometimes as high as 13 points, making it impossible to render statistically significant findings.
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Although the university plans to saturate the 4,000-student campus with iPhones and iPod Touches by the fourth year of the study (giving them out to each incoming class), even then it will be difficult to extract good data, said Perkins, the lead researcher. “We could do this study for 10 years, and then maybe we could talk about statistical significance,” he said. “That’s just simply a function of the sample size.” In order to generate data that would comment widely on the uses and effectiveness of mobile technology on campuses, Perkins added, the study would have to partner with other institutions.
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Since not all the students could necessarily afford AT&T service plans for their iPhones, and U.S. tax law would not permit the university to subsidize service plans for its students, Abilene Christian offered students the alternative of an iPod Touch — a device that shares many of the iPhone’s functions, but requires a wireless network to support Web-surfing.