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Wendy Windust

WIDE World - Program Overview - 14 views

wideworld.pz.harvard.edu/...index.html

world wide program wow

shared by Wendy Windust on 11 Nov 09 - Cached
  • Wendy Windust on 11 Nov 09
     
    Our goal is to transform school systems by developing professional communities of teachers and school leaders with interactive online courses and on-site support programs that enable schools to cultivate the critical learning students need for the 21st century world. Research-Based. WIDE World professional development programs are based on Teaching for Understanding, a classroom-tested framework developed through research at the Harvard Graduate School of Education. Online. WIDE World courses are conducted online and are asynchronous. This allows for flexible, adaptive, and convenient learning for all participants, regardless of location or schedule. Job-embedded. Through our courses, WIDE World learners integrate research-based strategies in their own workplace. Online coaches support cycles of learning, applying, and reflecting as teams of educators improve lesson plans, instruction, and data-driven action projects. Team-Based with Coaching. Systemic change requires coordinated effort from all stakeholders. Expert coaches help teachers, leaders, and specialists work in teams to develop a common language for defining and achieving shared goals. Tailored for Local Impact. WIDE World works with you to design professional development programs adapted precisely to address the needs of your school, program, district, or system and build local capacity for continuous improvement. Global Learning. In the online environment, participants collaborate with innovative educators from across the US and around the globe.
anonymous

Critical Issue: Using Technology to Improve Student Achievement - 0 views

www.ncrel.org/...te800.htm

shared by anonymous on 23 Feb 10 - Cached
  • Technologies available in classrooms today range from simple tool-based applications (such as word processors) to online repositories of scientific data and primary historical documents, to handheld computers, closed-circuit television channels, and two-way distance learning classrooms. Even the cell phones that many students now carry with them can be used to learn (Prensky, 2005).
  • Bruce and Levin (1997), for example, look at ways in which the tools, techniques, and applications of technology can support integrated, inquiry-based learning to "engage children in exploring, thinking, reading, writing, researching, inventing, problem-solving, and experiencing the world." They developed the idea of technology as media with four different focuses: media for inquiry (such as data modeling, spreadsheets, access to online databases, access to online observatories and microscopes, and hypertext), media for communication (such as word processing, e-mail, synchronous conferencing, graphics software, simulations, and tutorials), media for construction (such as robotics, computer-aided design, and control systems), and media for expression (such as interactive video, animation software, and music composition). In a review of existing evidence of technology's impact on learning, Marshall (2002) found strong evidence that educational technology "complements what a great teacher does naturally," extending their reach and broadening their students' experience beyond the classroom. "With ever-expanding content and technology choices, from video to multimedia to the Internet," Marshall suggests "there's an unprecedented need to understand the recipe for success, which involves the learner, the teacher, the content, and the environment in which technology is used."
  • In examining large-scale state and national studies, as well as some innovative smaller studies on newer educational technologies, Schacter (1999) found that students with access to any of a number of technologies (such as computer assisted instruction, integrated learning systems, simulations and software that teaches higher order thinking, collaborative networked technologies, or design and programming technologies) show positive gains in achievement on researcher constructed tests, standardized tests, and national tests.
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  • Boster, Meyer, Roberto, & Inge (2002) examined the integration of standards-based video clips into lessons developed by classroom teachers and found increases student achievement. The study of more than 1,400 elementary and middle school students in three Virginia school districts showed an average increase in learning for students exposed to the video clip application compared to students who received traditional instruction alone.
  • Wenglinsky (1998) noted that for fourth- and eighth-graders technology has "positive benefits" on achievement as measured in NAEP's mathematics test. Interestingly, Wenglinsky found that using computers to teach low order thinking skills, such as drill and practice, had a negative impact on academic achievement, while using computers to solve simulations saw their students' math scores increase significantly. Hiebert (1999) raised a similar point. When students over-practice procedures before they understand them, they have more difficulty making sense of them later; however, they can learn new concepts and skills while they are solving problems. In a study that examined relationship between computer use and students' science achievement based on data from a standardized assessment, Papanastasiou, Zemblyas, & Vrasidas (2003) found it is not the computer use itself that has a positive or negative effect on achievement of students, but the way in which computers are used.
  • Another factor influencing the impact of technology on student achievement is that changes in classroom technologies correlate to changes in other educational factors as well. Originally the determination of student achievement was based on traditional methods of social scientific investigation: it asked whether there was a specific, causal relationship between one thing—technology—and another—student achievement. Because schools are complex social environments, however, it is impossible to change just one thing at a time (Glennan & Melmed, 1996; Hawkins, Panush, & Spielvogel, 1996; Newman, 1990). If a new technology is introduced into a classroom, other things also change. For example, teachers' perceptions of their students' capabilities can shift dramatically when technology is integrated into the classroom (Honey, Chang, Light, Moeller, in press). Also, teachers frequently find themselves acting more as coaches and less as lecturers (Henriquez & Riconscente, 1998). Another example is that use of technology tends to foster collaboration among students, which in turn may have a positive effect on student achievement (Tinzmann, 1998). Because the technology becomes part of a complex network of changes, its impact cannot be reduced to a simple cause-and-effect model that would provide a definitive answer to how it has improved student achievement.
  • When new technologies are adopted, learning how to use the technology may take precedence over learning through the technology. "The technology learning curve tends to eclipse content learning temporarily; both kids and teachers seem to orient to technology until they become comfortable," note Goldman, Cole, and Syer (1999). Effective content integration takes time, and new technologies may have glitches. As a result, "teachers' first technology projects generate excitement but often little content learning. Often it takes a few years until teachers can use technology effectively in core subject areas" (Goldman, Cole, & Syer, 1999). Educators may find impediments to evaluating the impact of technology. Such impediments include lack of measures to assess higher-order thinking skills, difficulty in separating technology from the entire instructional process, and the outdating of technologies used by the school. To address these impediments, educators may need to develop new strategies for student assessment, ensure that all aspects of the instructional process—including technology, instructional design, content, teaching strategies, and classroom environment—are conducive to student learning, and conduct ongoing evaluation studies to determine the effectiveness of learning with technology (Kosakowski, 1998).
Leonard Miller

Education Week: Blended PD Emphasizes Differentiated Instruction - 0 views

www.edweek.org/...09el-blendedpd.h32.html

Blended learning for PD modeling differentiated

shared by Leonard Miller on 26 Oct 12 - No Cached
  • If blended learning is one of the biggest trends in education, it should offer a way for teachers to practice the approach themselves.
  • Professional development for educational technology has to move away from its historical focus on technical training and toward a broader focus on what educational approaches work best.
  • In other words, teachers not only need to be proficient at integrating virtual experiences into the classroom, they must also be confident in why they're doing so.
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  • the certification program is split into two tiers. The first includes foundational courses aimed at helping teachers understand various strategies for online and blended learning and make decisions about how to use them to create engaging, differentiated classrooms. The second tier provides instruction in the tools and techniques for turning those ideas into reality
  • launched an online and blended certification program
  • No longer solely a teacher, "I am facilitator, fellow learner, and curator," added Ms. Canady. "I'm becoming more focused on giving my students more bang for their buck, more time. I don't want them to do anything they don't need in order to grow."
  • The team generally kicks off the design process anywhere from six to 12 months before the first day of school. The process includes identifying instructional objectives, choosing a classroom model, selecting curriculum providers, preparing infrastructure, and setting up teacher professional development.
  • the coach helped them implement blended-learning models to differentiate instruction, extend learning beyond the classroom, and engage families in the learning process.
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