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As former elementary science and math education professor, I was always encouraging preservice teachers to teach science and math from a hands-on, minds-on perspective. My goal was single minded in the sense that for students to learn science and math their curiosity must peaked. This was always a challenge because most of these preservice teachers learned science and math by rote memorization of facts. Their prior knowledge and experience had few opportunities to actually investigate science phenomena and truly understand the usefulness of math.

Great article about the importance of Computer Science. This is one of those that superintendents and principals should email their curriculum directors, school board members and PTO's to support and encourage this kind of education. "This is not about helping the tech industry. It's about the tech industry helping the rest of America. Today, 67 percent of software jobs are outside the tech industry. If hiring computer programmers is challenging for Silicon Valley, it's an even greater challenge for every other industry in America. Tech jobs aside, teaching kids basic computer science is valuable no matter what career path they might choose. Every child can benefit from a strong foundation in problem-solving. As software is taking over the world, a rudimentary grasp of how it works is critical for every future lawyer, doctor, journalist, politician and more. American schools are struggling to teach basic math and English, and skeptics may worry that we can't afford to teach anything else. We'd argue that computer science is part of the solution: it motivates kids to learn other subjects. If a school can afford to teach biology, history, chemistry and foreign languages, it should teach computer science too."

Teaching and assessment strategies are provided for encouraging students with learning disabilities to develop a better understanding of science concepts. Teaching science inclusive classrooms is challenging due to the need for teaching too many different learning styles, including students who have learning disabilities. Learning disabled students have many concerns including physical, emotional, and cognitive. These disabilities cause the need to teach concepts differently primarily through the use of direct, explicit instruction and tailored evaluation.

You can go to this website and find some cool ideas for science competitions. "The Elementary Science Olympiad offers over 80 challenging and motivational events which are balanced among the various science disciplines of life science, earth science, and physical science. These individual and team events also offer a balance among events requiring knowledge of science facts, concepts, processes, skills, and applications. While a number of the events are in the form of a general quiz, the majority provide an element of "hands-on" participation allowing the "active" study of science. The emphasis is on learning, participation, interaction, and having fun."

Math and Science fellowships for beginning math and science teachers.

Math and Science teachers -- beginning teachers should consider applying for these fellowships. These are in the United States. Here is what the ocmpany says about the fellowships (applications due Jan 15): "The prestigious KSTF Teaching Fellowship is valued at nearly $150,000 over the course of five-years and supports aspiring teachers of promise as they embark on careers teaching high school science and mathematics. Designed to meet the financial and professional needs of beginning teachers, the Fellowship exposes educators to a variety of teaching resources, new curriculum materials, and research and experts in the field. Most importantly, the program fosters professional development within a community of high school science and mathematics teachers and prepares Fellows to become leaders in their field."

Teaching science inclusive classrooms is challenging due to the need for teaching too many different learning styles, including students who have learning disabilities. Learning disabled students have many concerns including physical, emotional, and cognitive. These disabilities cause the need to teach concepts differently primarily through the use of direct, explicit instruction and tailored evaluation.

Integrating the science process skills within your teaching does not require drastic changes. It simply involves making the process of science more explicit in lessons, investigations, and activities you are already using in your curriculum. The science process skills are the methods used for helping our students understand how we know what we know about the world in which they live. This often means going beyond a science textbook and supplementing the core-content within textbooks. It also means using your course content as a means for exposing students to the real process of science.

"In his new book, Professor Keith Taber reassures practicing and training science teachers, as he explores a range of issues faced by secondary school educators and discusses strategies for teaching the nature of scientific knowledge, making practical work effective and challenging young scientists. Throughout the academic prose, Professor Taber reflects on the nature of scientific knowledge in science education encouraging creating narratives, challenging misconceptions, and exploring principles of constructive teaching. The book continues with exploring specific challenges, such as teaching electrical circuits to lower secondary school students, along with a chapter dedicated to supporting gifted students who excel at the subjects."

Math and Science professionals who to into primary teaching in Australia will get half of their student loan forgiven.

In Australia, they are taking an initiative to get more math and science graduates into primary teaching -- those who do so will have a 50% refund on their loan payments. This in response to a study in July from the National Numeracy Review that "concluded that systematic teaching of numeracy in the early years of schooling, in maths lessons and across the wider curriculum, was essential if these trends were to be reversed." I find this interesting and hope that it will encourage people who love math and science AND STUDENTS will accept. Just a geek doesn't mean you love students or want to teach them.

The following is a common question heard around teacher workrooms, teacher lunchrooms, faculty meetings, and science or math conferences. "Why use web 2.0 tools when teaching science or math?" The answer is both simple and complex at the same time.

Wiki pages are always a work in progress. The wiki is like a dynamic online science classroom which continually grows and changes. Applications for the use of Wikis in science classrooms is only limited by the creativeness of the teacher in support science teaching and student earning.

"Starting in the final term before I officially started in September was tough. I wasn't  anticipating having such a full teaching timetable and my own classes were incredibly unsettled. I found it difficult to establish myself as an average science teacher let alone attempt to lead a department. I was seriously considering if I had made the right move! I remember one student in what I thought was a difficult Year 9 class saying "sir why don't you go and get the head of science" to which I replied "I am the head of Science!"."

We all remember science lessons from our school days. Whether the lessons were with the more 'characteristic' teachers in the school, or whether you all released the gas taps when the teacher foolishly left the room, we all seemed to miss the link that science is life! And what an opportunity science teachers have in releasing the magic of life to their pupils, answering BIG questions like "Why am I like my parents?", or "What will my life be like in 2050?", or "Why is Pripyat a deserted town?"

Computer Science Education week in the USA is going to be December 7th - Microsoft Blogger Alfred Thompson (and in my humble opinion one of the definitive leaders in advocating computer science education) has shared a blog post about this. If you teach computer science or touch on it, consider planning some things.

Computer Science Education week

"Ainsworth, Prain and Tyler  (2011) in a paper in Science argue that  drawing  can play a number of  important roles in learning:, namely: Drawing to enhance engagement - surveys have shown than when students draw to explain they are more motivated to learn compared to traditional teaching of science. Drawing to learn to represent in science - the process of producing visual representations  helps learners understand how scientific representations work. Drawing to reason in science - student learn to reason like scientists as they select specific features to focus on in their drawings, aligning it with observation, measurement and/or emerging ideas Drawing as a learning strategy - if learners read a text and then draw it, the process of making their understanding visible and explicit helps them to overcome limitations in presented material, organise and integrate their knowledge and ultimately can be transformative. Drawing to communicate - discussing their drawings with their students provides teachers with windows into students' thinking as well being a way that the peers can share knowledge, discovery and understanding."

"Maybe it is something to do with starting something new, but when I started thinking about my new role as Head of Science, I thought I should write a blog. This led me to re-discover the blog I had wanted to start before starting teaching. Unsurprisingly, I failed to keep going with the blog during the first chaotic years of teaching, but now I think it will be really useful and so I am going to stick with it this time! Since the previous post was 5 years ago, I thought I would start with a very general blog about five of the big lessons I have learnt since starting teaching."

All the ways to teach binary numbers. Some older lesson plans on Alfred Thompson's old blog. I teach binary numbers in my introduction to computer science blog.

Flipping a classroom is not a teaching technique, it is more in line with a philosophy or way of teaching. It involves using technology as a tool, not the main focus, for helping students increase their understanding of science or math concepts.