Publication Date
| In 2026 | 0 |
| Since 2025 | 0 |
| Since 2022 (last 5 years) | 0 |
| Since 2017 (last 10 years) | 1 |
| Since 2007 (last 20 years) | 1 |
Descriptor
Source
| Journal of Geoscience… | 2 |
Author
| Chapman, LeeAnna | 1 |
| Czaijka, C. Douglas | 1 |
| Jones, Jason P. | 1 |
| McConell, David A. | 1 |
| McConnell, David A. | 1 |
| Owens, Kathie D. | 1 |
| Ryker, Katherine D. | 1 |
| Steer, David N. | 1 |
| Wiggen, Jennifer | 1 |
Publication Type
| Journal Articles | 2 |
| Reports - Research | 2 |
| Information Analyses | 1 |
| Reports - Descriptive | 1 |
Education Level
| Higher Education | 1 |
| Postsecondary Education | 1 |
Audience
| Teachers | 1 |
Location
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Download full textMcConell, David A.; Chapman, LeeAnna; Czaijka, C. Douglas; Jones, Jason P.; Ryker, Katherine D.; Wiggen, Jennifer – Journal of Geoscience Education, 2017
The adoption of active learning instructional practices in college science, technology, engineering, and mathematics (STEM) courses has been shown to result in improvements in student learning, contribute to increased retention rates, and reduce the achievement gap among different student populations. Descriptions of active learning strategies…
Descriptors: Instructional Effectiveness, Active Learning, Learning Strategies, STEM Education
Peer reviewedMcConnell, David A.; Steer, David N.; Owens, Kathie D. – Journal of Geoscience Education, 2003
Suggests that instructors can foster the growth of thinking skills and promote science literacy by incorporating active learning strategies into the classroom. Describes situations in which a variety of learning strategies were incorporated into large earth science courses for non-majors. Improvements in student achievement, retention, and logical…
Descriptors: Active Learning, Concept Mapping, Earth Science, Evaluation
