Publication Date
| In 2026 | 0 |
| Since 2025 | 1 |
| Since 2022 (last 5 years) | 1 |
| Since 2017 (last 10 years) | 1 |
| Since 2007 (last 20 years) | 1 |
Descriptor
| Coding | 2 |
| Computer Science Education | 2 |
| Artificial Intelligence | 1 |
| Cognitive Development | 1 |
| Computers | 1 |
| Concept Formation | 1 |
| Electric Circuits | 1 |
| Elementary School Students | 1 |
| Flow Charts | 1 |
| Foreign Countries | 1 |
| Internet | 1 |
| More ▼ | |
Source
| Computer Science Education | 2 |
Publication Type
| Journal Articles | 2 |
| Guides - Classroom - Teacher | 1 |
| Reports - Research | 1 |
| Tests/Questionnaires | 1 |
Education Level
| Elementary Education | 1 |
Audience
| Teachers | 2 |
| Policymakers | 1 |
| Practitioners | 1 |
| Researchers | 1 |
Location
| Nigeria | 1 |
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Peer reviewed
Direct linkMayowa Oyedoyin; Ismaila Temitayo Sanusi; Musa Adekunle Ayanwale – Computer Science Education, 2025
Background and Context: Recognizing that digital technologies can enable economic transformation in Africa, computing education has been considered a subject relevant for all within the compulsory level of education. The implementation of the subject in many schools is, however, characterized by a myriad of challenges, including pedagogical…
Descriptors: Elementary School Students, Student Attitudes, Internet, Coding
Brown, David W. – Computer Science Education, 1990
Presents a method to enhance the teaching of computer programing to secondary students that establishes a connection between logic, truth tables, switching circuits, gating symbols, flow charts, and pseudocode. The author asserts that the method prepares students for thinking processes related to programing. (MDH)
Descriptors: Coding, Cognitive Development, Computer Science Education, Electric Circuits
