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Blog 100 Most Educational iPhone Apps August 31st, 2009 You probably carry your iPhone with you everywhere, so why not make it an integral part of your education? These apps are all educational in nature and will have you learning about math, science, geography, history, English, and foreign languages; help strengthen your skills with brain exercises and quizzes; provide reference material; and offer opportunities to boost your productivity so you can devote more time to your studies. Check out these apps to see which ones you need for your iPhone–and your education.

Research into games for educational purposes reveals some interesting trends. Early studies of consumer games helped to identify the aspects of games that make them especially engaging and appealing to players of various ages and of both genders: the feeling of working toward a goal; the possibility of attaining spectacular successes; the ability to problem-solve, collaborate with others, and socialize; an interesting story line; and other characteristics. These qualities are replicable, though they can be difficult to design well, and they can transfer to games featuring educational content.

Games often have a fantasy element that engages players in a learning activity through narrative or storylines. Educational video games can be motivating to children and allow them to develop an awareness to consequentiality.[1] Children are allowed to express themselves as individuals while learning and engaging in social issues. Today's games are more social, with most teens playing games with others at least some of the time and can incorporate many aspects of civic and political life.[2] Students that participate in educational video games can offer deeper, more meaningful insights in all academic areas. The success of game-based learning strategies owes to active participation and interaction being at the center of the experience, and signals that current educational methods are not engaging students enough. Experience with and affinity for games as learning tools is an increasingly universal characteristic among those entering higher education and the workforce

is a branch of serious games that deals with applications that have defined learning outcomes. Generally they are designed in order to balance the subject matter with the gameplay and the ability of the player to retain and apply said subject matter to the real world.

What’s the difference between a computer simulation and a backyard game of tag? Quite honestly, not much – which is exactly why we, as educational media designers, have failed three decades of curious kids (with some notable exceptions). Interactive quizzes and digital flash cards may make content more exciting than their analog counterparts, but that’s a short-sighted approach that fails to get at the root problem, an extrinsic motivation when kids are already intrinsically motivated to learn. The fundamental problem is not that learning isn’t fun, it’s that we’re answering questions that kids aren’t asking (Who?, What?, When?, Where?) instead of giving them tools to experiment, build on, and share their own ideas. The problem is that we’re trying to replace teachers and parents with software rather than giving them complementary tools to help them become facilitators and coaches instead of test administrators.

Touch-screen based mobile devices are increasingly becoming the communication tools of choice. While there is already an abundance of games, entertainment and utility applications on mobile platforms, the widespread use of such devices for educational purposes is still largely unexplored. In this project, Jay Bagga and Vinayak Tanksale, both of computer science, have developed three native and web-based iPhone applications designed to support and enhance the learning process. The first prototype developed by the team is a political science learning tool, created in collaboration with Joseph Losco, chair of Ball State’s Department of Political Science. The application features textbook chapters, interactive quizzes, polling capabilities and access to web-based resources.

Augmented Reality is important in education for a number of reasons: The real world can be annotated. Location information can be available in places or on objects Users can interact with virtual and physical objects at the same time. User can see virtual model from all angles. User can experiment/practice with virtual objects in a realistic but no consequence situation. (For example, practice surgery, firefighting) Engagement- rich information engages user -appeals to different learning styles

Unlike many other educational formats, game-based learning can bring fun and enjoyment to the learning experience and might encourage greater participation in group learning activities, with the potential to engage learners’ emotions, as well as their intellects. Therefore, this format could substantially contribute to the development of a wider repertoire of teaching and learning methods in continuing medical education (CME). Although many authors claim that games are as effective as more traditional educational methods, games have rarely been formally evaluated, with positive claims being largely based on anecdotal evidence. Formal evaluations of games, demonstrating that they are actually as effective a teaching and learning strategy for CME as more traditional methods are, are lacking.

A quick review of published studies indicates that games have been used in design education. However, no systematic study of the use (or potential) of games exists in these disciplines, and no published data exists on the use of video games in this regard. Further, no one has engaged in the long-term development of video games for the collegiate design student. This study will provide key information for presentation, publication, and building a foundation for seeking future funding.

he 2010 Horizon Report includes examples of augmented reality like the Wii under the category Gesture Based Computing. Gesture recognition enables humans to interact with mechanical devices using simple natural gestures. In the future, the use of a keyboard, a mouse or even a touch pad may become a thing of the past with innovations in gesture based computing. See a video slide show of The New Media Consortium/ Educause report Click Gesture-Based Computing : 2010 NMC Horizon Report iPhone geotags. Geotagging and Geolocation Another important part of augmented reality applications is the use of geotagging and geolocation. A Geotag is a GPS coordinate that associates content such as videos, textual information, audio or any user- generated content to a specific location. When photographers use digital cameras, they have the choice to date stamp the video or photo. A Geotag is similar to that type of tag. AR applications draw on specific tags created by companies but will also depend on content that everyday users add through Geotagging. When we go to Google Earth to view a location, we are now able to find pictures and information added by users through these types of tags. Marker vs Markerless Augmented Reality AR Marker QR Code. AR Marker QR Semacode. Currently, many people associate augmented reality with black and white squares that trigger augmented reality elements. These black and white squares are called markers. Markers are also called QR (Quick Response) codes or Semacodes. A QR code is a two dimentional bar code that allows its content to be decoded at high speed. Markerless technology requires no marker to know the position of the object or person. Smartphone browsers that layer information over live locations are often considered in the markerless category, although they still use embedded "marked" information through geolocation and geotagging. The goal is to have augmented reality work much like this HP commercial Jerry Seinfeld for HP

Augmented reality, a capability that has been around for decades, is shifting from what was once seen as a gimmick to a bonafide game-changer.

Various forms of augmented reality, starting with early head-mounted displays, have been around for more than 30 years. Over that time, increased bandwidth and smart phone adoption, as well as a proliferation of AR browser applications, have helped AR evolve from a family of cool gadgets on the periphery of graphics and visualization technologies to an increasingly central player in the technology landscape.

Augmented reality (AR) refers to the addition of a computer-assisted contextual layer of information over the real world, creating a reality that is enhanced or augmented.

This Aboriginal pedagogy framework is expressed as eight interconnected pedagogies involving narrative-driven learning, visualised learning plans, hands-on/reflective techniques, use of symbols/metaphors, land-based learning, indirect/synergistic logic, modelled/scaffolded genre mastery, and connectedness to community. But these can change in different settings.

Every place, every People, has its own unique pedagogies. These 8 simple ones are merely a starting point for dialogue. Each school engages in a different way, and produces its own unique frameworks for Aboriginal education through dialogue with the community about local ways of doing things