Periodic Reporting for period 2 - NeuroMath (Acquisition of Mathematical Concepts in the Human Brain)
Período documentado: 2022-06-01 hasta 2023-05-31
Adults were 21 freshman university students in mathematics who watched four video introductions to measure theory, stochastic processes, plant biology, and property law. Before and after watching the videos, they had to decide whether spoken math and non-math statements were true or false. The tested concepts were either known from high school, unknown throughout the study, or initially unknown then taught in the videos. We verified that semantic decision on long-known math concepts engaged a distinct math-responsive brain network. This network was also activated, at least partially, during the learning episode itself. However, the videos induced only minimal learning that was associated with increased brain activity in domain-general regions, but not in the math-responsive network. This study indicates that new math concepts are not automatically integrated into the math-responsive network and is a proof of concept showing that our novel fMRI paradigm can provide a diagnostic tool for the efficiency of math pedagogical materials. These results were published in PNAS in 02/2023.
To children, we chose to teach the commutative principle of multiplication. We started with a behavioral investigation of the existence of precursory knowledge of multiplicative commutativity before formal schooling. 5-year-old children (N = 30) were asked to judge whether 2 characters got a fair or an unfair share of apples in various situations that probed commutative multiplication and addition as well as mere identity, and that tested the effect of symmetric cues or verbal descriptions. Our preliminary results indicate that commutativity was more accurately perceived in addition than multiplication, and that verbal descriptions were not helpful. However, making apparent the symmetry intrinsically contained in commutativity helped preschoolers perceive multiplicative commutativity.
We assessed elementary school children’s knowledge of multiplicative commutativity in a number comparison game (N = 79). Trials tested for multiplicative commutativity in both symbolic and non-symbolic forms, and controlled for various parameters including the total numbers, or the type of operation (addition, multiplication, identity). We found that non-symbolic commutative trials yielded more errors than symbolic commutative trials, and that symbolic mastery of commutativity (but not number sense acuity) correlated with performance on non-symbolic trials. A subset of these children was then presented with a short training. We used the results obtained in preschoolers to create a 5-minute video in which a cartoon teacher explains the commutative principle of multiplication using a combination of images, words, symbolic and non-symbolic representations. After watching the video and completing a short auditory knowledge test, children played the number comparison game again. We found that children’s pre-intervention level of symbolic mastery influenced the effect of the intervention: children with the lowest symbolic mastery improved on symbolic trials, while children with the highest symbolic mastery improved on non-symbolic trials. This study, that indicates that the commutative principle of multiplication may not be readily available to intuition before formal teaching of multiplication and commutativity, was presented to the conference of the Cognitive Science Society in 07/2023 and is described in a manuscript that was recently submitted.
Our results also validate the efficiency of our training material at teaching multiplicative commutativity. We thus used it in an fMRI learning paradigm. To evaluate the neural changes induced by learning that multiplication is commutative, 20 2nd graders completed a one-back number task before and after the intervention: they saw a succession of images representing dot arrays or operations, and at random times, they were asked if the two images presented before the question showed the same or different total numbers. The images probed non-symbolic and symbolic commutative situations as well as additive situations with matching numbers and arithmetic outcome. To evaluate children’s functional maturity and assess its link with performance, we also scanned a group of 20 adults. fMRI data are currently under analysis.