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Google Specifically for Education From Google Scholar that returns only results from scholarly literature to learning more about computer science, these Google items will help you at school. Google Scholar. Use this specialized Google search to get results from scholarly literature such as peer-reviewed papers, theses, and academic publishers. Use Google Earth’s Sky feature. Take a look at the night sky straight from your computer when you use this feature. Open your browser with iGoogle. Set up an iGoogle page and make it your homepage to have ready access to news stories, your Google calendar, blogs you follow in Google Reader, and much more. Stay current with Google News. Like an electronic clearinghouse for news, Google News brings headlines from news sources around the world to help you stay current without much effort. Create a Google Custom Search Engine. On your own or in collaboration with other students, put together an awesome project like one of the examples provided that can be used by many. Collect research notes with Google Notebook. Use this simple note-taking tool to collect your research for a paper or project. Make a study group with Google Groups. Google Groups allows you to communicate and collaborate in groups, so take this option to set up a study group that doesn’t have to meet face-to-face. Google Code University. Visit this Google site to have access to Creative Commons-licensed content to help you learn more about computer science. Study the oceans with Google Earth 5. Google Earth 5 provides information on the ocean floor and surface with data from marine experts, including shipwrecks in 3D. Learn what experts have to say. Explore Knol to find out what experts have to say on a wide range of topics. If you are an expert, write your own Knol, too.

Active and Reflective Processing. Active learners tend to learn while doing something active---trying things out, bouncing ideas off others; reflective learners do much more of their processing introspectively, thinking things through before trying them out [12]. Active learners work well in groups; reflective learners prefer to work alone or in pairs. Unfortunately, most lecture classes do very little for either group: the active learners never get to do anything and the reflective learners never have time to reflect. Instead, both groups are kept busy trying to keep up with a constant barrage of verbiage, or else they are lulled into inattention by their enforced passivity. The research is quite clear on the question of active and reflective versus passive learning. In a number of studies comparing instructor-centered classes (lecture/demonstration) with student-centered classes (problem-solving/discussion), lectures were found to be marginally more effective when students were tested on short-term recall of facts but active classroom environments were superior when the criteria involved comprehension, long-term recall, general problem-solving ability, scientific attitude, and subsequent interest in the subject [15]. Substantial benefits are also cited for teaching methods that provide opportunities for reflection, such as giving students time in class to write brief summaries and formulate written questions about the material just covered [15,20].

reflective learners do well at individual research and design.

Unfortunately---in part because teachers tend to favor their own learning styles, in part because they instinctively teach the way they were taught in most college classes---the teaching style in most lecture courses tilts heavily toward the small percentage of college students who are at once intuitive, verbal, deductive, reflective and sequential. This imbalance puts a sizeable fraction of the student population at a disadvantage. Laboratory courses, being inherently sensory, visual, and active, could in principle compensate for a portion of the imbalance; however, most labs involve primarily mechanical exercises that illustrate only a minor subset of the concepts presented in lecture and seldom provide significant insights or skill development. Sensing, visual, inductive, active, and global learners thus rarely get their educational needs met in science courses.