Publication Date
| In 2026 | 0 |
| Since 2025 | 0 |
| Since 2022 (last 5 years) | 0 |
| Since 2017 (last 10 years) | 2 |
| Since 2007 (last 20 years) | 2 |
Descriptor
| Mathematical Concepts | 2 |
| Bias | 1 |
| Learning Strategies | 1 |
| Mathematical Models | 1 |
| Mathematics Education | 1 |
| Mathematics Instruction | 1 |
| Mathematics Skills | 1 |
| Models | 1 |
| Problem Solving | 1 |
| Task Analysis | 1 |
| Teaching Methods | 1 |
| More ▼ | |
Source
| Cognitive Science | 2 |
Author
| Blanc-Goldhammer, Daryn | 1 |
| Cohen, Dale J. | 1 |
| Kapur, Manu | 1 |
| Quinlan, Philip T. | 1 |
| Sinha, Tanmay | 1 |
| Trninic, Dragan | 1 |
Publication Type
| Journal Articles | 2 |
| Reports - Research | 2 |
Education Level
Audience
Location
Laws, Policies, & Programs
Assessments and Surveys
What Works Clearinghouse Rating
Peer reviewed
Direct linkTrninic, Dragan; Kapur, Manu; Sinha, Tanmay – Cognitive Science, 2020
When teaching a novel mathematical concept, should we present learners with abstract or concrete examples? In this experiment, we conduct a critical replication and extension of a well-known study that argued for the general advantage of abstract examples (Kaminski, Sloutsky, & Heckler, 2008a). We demonstrate that theoretically motivated yet…
Descriptors: Mathematics Education, Mathematical Concepts, Mathematics Instruction, Teaching Methods
Cohen, Dale J.; Blanc-Goldhammer, Daryn; Quinlan, Philip T. – Cognitive Science, 2018
Current understanding of the development of quantity representations is based primarily on performance in the number-line task. We posit that the data from number-line tasks reflect the observer's underlying representation of quantity, together with the cognitive strategies and skills required to equate line length and quantity. Here, we specify a…
Descriptors: Mathematical Models, Mathematics Skills, Problem Solving, Mathematical Concepts
