Science and Mathematics Education Commons^™

Thinking It Through: Australian Students’ Skills In Creative Problem Solving, Lisa De Bortoli, Greg Macaskill

Lisa De Bortoli

In every PISA survey, students from every participating country are assessed in the core domains of mathematics, science and reading literacy. In addition to assessing these literacy domains, the OECD proposes additional assessments in other domains. In PISA 2003, a paper-based assessment of cross- disciplinary problem solving was first assessed, when it was included as a core domain. In PISA 2012, problem solving was once again assessed, this time as an optional computer-based assessment.

The focus of the PISA 2012 assessment of problem solving was: Are today’s 15-year-old students acquiring the problem-solving skills that will prepare them to meet the …

Thinking It Through: Australian Students’ Skills In Creative Problem Solving, Lisa De Bortoli, Greg Macaskill

OECD Programme for International Student Assessment (PISA) Australia

In every PISA survey, students from every participating country are assessed in the core domains of mathematics, science and reading literacy. In addition to assessing these literacy domains, the OECD proposes additional assessments in other domains. In PISA 2003, a paper-based assessment of cross- disciplinary problem solving was first assessed, when it was included as a core domain. In PISA 2012, problem solving was once again assessed, this time as an optional computer-based assessment.

The focus of the PISA 2012 assessment of problem solving was: Are today’s 15-year-old students acquiring the problem-solving skills that will prepare them to meet the …

A Grounded Theory Study On The Role Of Differentiated Instruction In Effective Middle School Science Teaching, Brian Jones

Doctoral Dissertations and Projects

The purpose of this grounded theory study was to develop a model explaining the role of differentiated instruction (DI) in effective middle school science teaching. The study examined the best teaching practices and differentiated elements from eight general education middle school science teachers, all scoring at the highest level of a teaching effectiveness measure on their evaluations, through a collection of observational, interview, survey, and teaching artifact data. The data were analyzed through the methodology of a systematic grounded theory qualitative approach using open, axial, and selective coding to develop a model describing how and to what degree effective middle …

Increasing Access And Success In The Stem Disciplines: A Model For Supporting The Transition Of High School Students With Disabilities Into Stem-Related Postsecondary Education, Martie Kendrick, Marnie Bragdon-Morneault, Janet May, Alan Kurtz

Transition-Age Resources

This publication (191-page PDF) contains a package of evidenced-based transition supports that can be used by educators or instructors with high school students with disabilities who are interested in pursuing STEM-related postsecondary education and careers. The publication contains information and instructional activities related to the following: self-advocacy and self-determination; exploring STEM careers; disability disclosure; the accommodations process in college; identifying assistive technology; mentoring relationships and internships; and using student- and family-centered planning to prepare for college.

Cultivating Primary Students’ Scientific Thinking Through Sustained Teacher Professional Development, Roxanne Greitz Miller, Margaret Sauceda Curwen, Kimberly A. White-Smith, Robert C. Calfee

Education Faculty Articles and Research

While the United States’ National Research Council (NRC 2012) and Next Generation Science Standards (NGSS 2013) advocate children’s engagement in active science learning, elementary school teachers in the US indicate lack of time to teach science regularly because of (1) school and district pressure to focus on English language arts and mathematics assessment scores in response to the country’s No Child Left Behind (2001) mandates; (2) a lack of preparation in teacher science content knowledge; and (3) a lack of science professional development opportunities. In response to these needs and focusing on the primary (Kindergarten–first–second) grade levels, the Project SMART …

Integrating Technology And Engineering In A Stem Context, Barry N. Burke, Philip A. Reed, John G. Wells, Robert E. Yager (Ed.), Herbert Brunkhorst (Ed.)

STEMPS Faculty Publications

(First paragraph) Imagine students entering the classroom with an enthusiasm that cannot be contained. They come from all walks of life and with different experiences and backgrounds and are eager to engage in learning. Inspiration and innovation are on their mind. What they learned in their science and math classes is now being applied in another class they take called Technology and Engineering. Opportunity is what they see for their future. Something about connecting all the dots from all their classes propels them to change their outlook, to get involved, to get excited about school and to envision their future.