This research will analyze the issues encountered by two science teachers implementing Arduino-based robotic coding projects. This research employed a case study design. This research has used a criterion sampling group. This study used semi-structured observation, interviews, and video observations as data collection tools. The teachers conducted…

Background and Context: To better reflect the computational nature of STEM disciplines and deepen learning of science content computational thinking (CT) should be integrated in science curricula. Teachers have a critical role in supporting effective student learning with CT integrated curricula in classroom settings. Objective: Our team worked…

Computational thinking in physics has many different forms, definitions, and implementations depending on the level of physics or the institution it is presented in. To better integrate computational thinking in introductory physics, we need to understand what physicists find important about computational thinking in introductory physics. We…

Nearly a decade ago, the "Framework for K-12 Science Education" argued for the need to intertwine science and engineering practices, disciplinary core ideas, and crosscutting concepts in performance expectations. However, there are few empirical examples for how intertwining three dimensions facilitates learning. In this study, we used a…

We propose an integrated curriculum to establish essential abilities of computer programming for the freshmen of a physics department. The implementation of the graphical-based interfaces from Scratch to LabVIEW then to LabVIEW for Arduino in the curriculum "Computer-Assisted Instrumentation in the Design of Physics Laboratories" brings…

Bioinformatics education for undergraduates has been approached primarily in two ways: introduction of new courses with largely bioinformatics focus or introduction of bioinformatics experiences into existing courses. For small colleges such as Kalamazoo, creation of new courses within an already resource-stretched setting has not been an option.…

Argues that education in computer science in secondary schools has not kept pace with curriculum developments for college programs. Suggests definitions to be agreed upon and ways to close the gap between secondary and college programs. (PK)

Year-long team projects with external clients provide a well recognized opportunity for students to gain industry experience, whilst being supported and guided by staff to minimize risks. Each group should be supervised to ensure that they have enough direction and confidence to approach a new problem of significant size, without being daunted. A…

Instructional uses of computers with primary through higher education students is the focus of this extensive collection of 61 papers. The papers are categorized by the subject areas of computer-based education, computer science, the computer as a tool in undergraduate education and beyond, computer services, engineering, mathematics, physics,…

The objective of this project has been the development of a successful approach for the incorporation of on-line computer technology into the undergraduate chemistry laboratory. This approach assumes no prior programing, electronics or instrumental analysis experience on the part of the student; it does not displace the chemistry content with…

The first of a three-part series on computer-assisted instruction (CAI), this report describes 11 exemplary programs across the country that involve the use of microcomputers for instruction in computer science, mathematics, and science at the elementary and secondary levels. At the head of each description are the name and address of the school…

Describes activities of the Educational Technology Center at Harvard University, which focus on the use of computers and other technology to improve K-12 instruction in science, mathematics, and computing. Topics discussed include curriculum development; students' prior conceptions; the construction of scientific knowledge; the use of software;…

Describes the development of a curriculum design model for computer education in grades K-8. Discusses the method used in producing the model and includes the composite of objectives that were produced in the study, along with suggestions for implementing the model at the local school level. (TW)

Since 1983, the Educational Technology Center at the Harvard Graduate School of Education has studied the uses of computers and other technologies to improve K-12 instruction in science, mathematics, and computing. Collaborative research groups--including scientists and mathematicians, practicing teachers, learning theorists, and software…

The Education for Economic Security Act requires state education agencies to submit comprehensive needs assessments in order to receive the funding provided by Title II of the Act for improvements in mathematics, science, computer learning, and foreign language instruction. Areas of need covered in this summary include: the qualifications of…