Inquiry-based learning (IBL) represents the student-centered approach that focuses on encouraging learners to scientifically construct new knowledge. The study aimed to explain science teachers' and students' perceptions about applying IBL in a private school in Dubai. Furthermore, to explore the degree to which the science textbook of Grade 8…

Design2Learn (D2L) is a NYC-based afterschool program aimed at increasing middle school students' interest, engagement, and achievement in science. Designed by ExpandED Schools, D2L centers around three core strategies: (1) collaborative teaching between an in-school science teacher and two afterschool educators; (2) curricular bridging, which…

Design2Learn (D2L) is an afterschool program aimed at increasing science interest, engagement, and achievement among middle school students who historically have been underrepresented in STEM. The D2L model, designed and implemented by ExpandED Schools, uses three core strategies to foster students' interest and engagement in science: (1)…

Three central Virginia school districts and engineering education researchers at the University of Virginia were awarded an Investing in Innovation development grant to design, implement, test, and nationally disseminate a project-based engineering curriculum for middle school students. Referred to as invention kits, the curriculum is developed to…

Inquiry-based science interventions aim to improve students' science proficiency by helping them understand scientific processes. In these interventions, students conduct hands-on investigations of science concepts and everyday phenomena, construct explanations for what they observe, consider alternative explanations, and communicate and justify…

Inquiry-based science interventions aim to improve students' science proficiency by helping them understand scientific processes. In these interventions, students conduct hands-on investigations of science concepts and everyday phenomena, construct explanations for what they observe, consider alternative explanations, and communicate and justify…

The "LeTUS" program is a three-year, project-based, technology-integrated middle school science curriculum for grades 6-8. The "LeTUS" program is composed of multiple units, each lasting between eight and ten weeks. Topics include global warming, water and air quality, force and motion, communicable diseases, and ecological…

"Technology Enhanced Elementary and Middle School Science" ("TEEMSS") is a physical science curriculum for grades 3-8 that utilizes computers, sensors, and interactive models to support investigations of real-world phenomena. Through 15 inquiry-based instructional units, students interact with computers, gather and analyze…

Science Without Borders is a unique interdisciplinary science course that uses group and active-learning strategies and is in high demand among nonscience majors at a masters-level university. Registrar data showed that nonscience majors were far more likely to choose this course compared with other, discipline-based science courses. In an…

Considerable effort has been made over the past decade to address the needs of learners in large urban districts through scaleable reform initiatives. We examine the effects of a multifaceted scaling reform that focuses on supporting standards based science teaching in urban middle schools. The effort was one component of a systemic reform effort…

Lunar Nautics is a hands-on curriculum targeted to youth in grades 6 to 8, that allows the students to design, test, analyze and manage a space mission from initial concept to project funding. Lunar Nautics provides opportunities for development of problem solving skills and critical thinking skills that are needed to design, organize and manage a…