Group items tagged

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from simple tool-based applications (such as word processors) to online repositories of scientific data and primary historical documents, to handheld computers, closed-circuit television channels, and two-way distance learning classrooms.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.

Critics counter that, absent clear proof, schools are being motivated by a blind faith in technology and an overemphasis on digital skills — like using PowerPoint and multimedia tools — at the expense of math, reading and writing fundamentals. They say the technology advocates have it backward when they press to upgrade first and ask questions later.

district was innovating

how the district was innovating.

We use new technologies in innovative ways to solve problems. The bigger the problem, the more creative and innovative we need to be. It’s like the United State space program in the 1960’s and 70’s. The huge advancements in fuel cells, integrated circuits, or even freeze-dried foods were not the results of research units considering how space travel might work; rather, they were the results of a national imperative to put a person on the moon within a decade.

When we have a working, effective systems – like liberal education – new technologies like mobile computing find less context for innovation.

Almost every adult I’ve talked with in these countries shares a belief that the path to success is paved with science and engineering.

scientists and engineers are celebrities in most countries

Already, 70% of engineers with PhD’s who graduate from U.S. universities are foreign-born. Increasingly, these talented individuals are not staying in the U.S – instead, they’re returning home, where they find greater opportunities.