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Articles 1 - 10 of 10
Full-Text Articles in Science and Mathematics Education
Big Ideas “Ted” Talk Session: Inspiring Innovation And Inquiry, Lawrence Bergie, Britta W. Mckenna
Big Ideas “Ted” Talk Session: Inspiring Innovation And Inquiry, Lawrence Bergie, Britta W. Mckenna
Lawrence Bergie
The day will begin with six stories from innovative school districts, told in a short, engaging, “TED” talk format. After each story, David Chan and Henry Thiele will lead a time of reflection, sharing ideas, thoughts and connections. School professionals will share their stories about themes including: Inspiring Innovation and Inquiry.
Moving Education In2 The Future: Creating The Next Generation Of Innovators, Lawrence Bergie, Britta Mckenna
Moving Education In2 The Future: Creating The Next Generation Of Innovators, Lawrence Bergie, Britta Mckenna
Lawrence Bergie
What started as planning for the next generation of inquiry-based learning led to an entirely new center for innovation and entrepreneurship! Hear how this innovative idea moved to the design of a physical innovation hub and see how IMSA has transformed a former computer lab IN2 a working prototype of their future space. Dive into the many aspects of creating innovation spaces: design process, STEM foundation and entrepreneurship cornerstone, Makerspace development through a student leadership and service initiative, collaboration potential with community partners and local/regional business entities, student inquiry and research potential and the ability to showcase area emerging technology …
Work Integrated Learning In Stem In Australian Universities: Final Report: Submitted To The Office Of The Chief Scientist, Daniel Edwards, Kate Perkins, Jacob Pearce, Jennifer Hong
Work Integrated Learning In Stem In Australian Universities: Final Report: Submitted To The Office Of The Chief Scientist, Daniel Edwards, Kate Perkins, Jacob Pearce, Jennifer Hong
Dr Daniel Edwards
The Australian Council for Educational Research (ACER) undertook this study for the Office of the Chief Scientist (OCS). It explores the practice and application of Work Integrated Learning (WIL) in STEM, with a particular focus on natural and physical sciences, information technology, and agriculture departments in Australian universities. The project involved a detailed ‘stocktake’ of WIL in practice in these disciplines, with collection of information by interview, survey instruments, consultation with stakeholders and literature reviews. Every university in Australia was visited as part of this project, with interviews and consultation sessions gathering insight from more than 120 academics and support …
Work Integrated Learning In Stem In Australian Universities: Final Report: Submitted To The Office Of The Chief Scientist, Daniel Edwards, Kate Perkins, Jacob Pearce, Jennifer Hong
Work Integrated Learning In Stem In Australian Universities: Final Report: Submitted To The Office Of The Chief Scientist, Daniel Edwards, Kate Perkins, Jacob Pearce, Jennifer Hong
Dr Jacob Pearce
The Australian Council for Educational Research (ACER) undertook this study for the Office of the Chief Scientist (OCS). It explores the practice and application of Work Integrated Learning (WIL) in STEM, with a particular focus on natural and physical sciences, information technology, and agriculture departments in Australian universities. The project involved a detailed ‘stocktake’ of WIL in practice in these disciplines, with collection of information by interview, survey instruments, consultation with stakeholders and literature reviews. Every university in Australia was visited as part of this project, with interviews and consultation sessions gathering insight from more than 120 academics and support …
Figure - A Model Of Three-Dimensional Science Learning, Ana K. Houseal
Figure - A Model Of Three-Dimensional Science Learning, Ana K. Houseal
Ana K Houseal
The intersection of the Scientific and Engineering Practices (SEPs), Crosscutting Concepts (CCCs), and Disciplinary Core Ideas (DCIs) creates a space where three-dimensional teaching and learning takes place. Understanding how to identify and implement this type of learning is key to moving forward during this transitional time, between the release of the NGSS and its adoption and implementation in K-12 systems. This explanatory model of the Framework for K-12 Science Education/NGSS demonstrates what each of the dimensions might look like in classrooms, initially in isolation, then as pairs, and finally, combined. Understanding these connections and matching them to current classroom examples …
The Value Of Creating An Innovation Talent Pipeline, Britta Mckenna
The Value Of Creating An Innovation Talent Pipeline, Britta Mckenna
Britta McKenna
Investing in the innovation pipeline today translates to Illinois business tomorrow. Somewhere between the rise of “STEM” and “staying globally competitive” in a time after Millennials is Generation Z. Gen Z digital natives are now making their way to and through primary and secondary education and we need to be ready to nurture the emerging talents of these and other future innovators. This is particularly important in Illinois where developing – and retaining – top talent will be a key driver of the state’s knowledge-based economy. There is hard work ahead reimagining what education should look like to support this …
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
“Analyze, Acquire, Apply, And Write” As A New Learning Model In Science, Jeong Choe
Jeong Choe
I have developed a new teaching and learning model called AAAW, which stand for Analyze, Acquire, Apply and Write. This model grows from action research and unique experience in teaching a biochemistry course to high school students who are talented in math and science. In this model, students first "Analyze" lab data to generate questions that lead them to "Acquire" background knowledge. Students then go back to the data and "Apply" their new knowledge to better understand the data. Finally, students "Write" about the connections they make from their reading, data analysis, and application of the data. The rationale behind …
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Technology Education For High-Ability Students, Carl Heine, James Gerry, Laurie S. Sutherland
Carl Heine
Technologically adept teens not only consume technology voraciously; they create it. Gifted and talented students are attracted to technology for its capacity to transform learners from “receptacles of knowledge to active producers who direct their own learning” (Siegle, n.d.). Beyond the capacity to produce or innovate with technology is the opportunity to conceive and produce innovative technologies, a distinct type of tech giftedness (Siegle, n.d.) and the focus of the present chapter. Technologically skilled teens have been doing this for some time, typically unassisted. It’s not hard to locate the connections between Facebook, Google, and YouTube and their gifted creators. …
Project-Based Collaborative Innovation For The Igeneration, James Gerry, Carl Heine
Project-Based Collaborative Innovation For The Igeneration, James Gerry, Carl Heine
Carl Heine
Social media provides powerful opportunities to create new learning communities. Online, project-based activities reach today's iGen students in ways they learn best, maximizing interaction and individualization through the use of free Web technologies such as CoolHub.IMSA. Discover ways to use networing tools to transform teaching and learning at your school.
Open Source Software To Enhance The Stem Learning Environment, Maurice Dawson, Imad Al Saeed, Jorja Wright, Festus Onyegbula
Open Source Software To Enhance The Stem Learning Environment, Maurice Dawson, Imad Al Saeed, Jorja Wright, Festus Onyegbula
Maurice Dawson
This chapter examines the use of Open Source Software (OSS) technologies that can be used to improve the learning of Science, Technology, Engineering, and Mathematics (STEM). Explored are the various methods that can be utilized to improve the percentage of STEM majors in the American educational system with resources such as: Open Source as Alternative (OSALT), virtualization, cloud computing, Linux distributions, open source programming, and open source hardware platforms. Increasing the amount of students that pursue STEM majors is important because the projected job growth in the STEM field compared to non-STEM jobs is 33%. OSALT provides cost-effective alternatives to …