TY  - JOUR
A1  - Shaki, Samuel
A1  - Fischer, Martin H.
T1  - Competing Biases in Mental Arithmetic
BT  - When Division Is More and Multiplication Is Less
JF  - Frontiers in human neuroscience
N2  - Mental arithmetic exhibits various biases. Among those is a tendency to overestimate addition and to underestimate subtraction outcomes. Does such “operational momentum” (OM) also affect multiplication and division? Twenty-six adults produced lines whose lengths corresponded to the correct outcomes of multiplication and division problems shown in symbolic format. We found a reliable tendency to over-estimate division outcomes, i.e., reverse OM. We suggest that anchoring on the first operand (a tendency to use this number as a reference for further quantitative reasoning) contributes to cognitive biases in mental arithmetic.
KW  - heuristics and biases
KW  - numerical cognition
KW  - mental arithmetic
KW  - mental number line
KW  - operational momentum
Y1  - 2017
U6  - https://doi.org/10.3389/fnhum.2017.00037
SN  - 1662-5161
VL  - 11
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Fischer, Martin H.
A1  - Shaki, Samuel
T1  - Repeating Numbers Reduces Results: Violations of the Identity Axiom in Mental Arithmetic
JF  - Frontiers in psychology
N2  - Even simple mental arithmetic is fraught with cognitive biases. For example, adding repeated numbers (so-called tie problems, e.g., 2 + 2) not only has a speed and accuracy advantage over adding different numbers (e.g., 1 + 3) but may also lead to under-representation of the result relative to a standard value (Charras et al., 2012, 2014). Does the tie advantage merely reflect easier encoding or retrieval compared to non-ties, or also a distorted result representation? To answer this question, 47 healthy adults performed two tasks, both of which indicated under-representation of tie results: In a result-to-position pointing task (Experiment 1) we measured the spatial mapping of numbers and found a left-bias for tie compared to non-tie problems. In a result-to-line-length production task (Experiment 2) we measured the underlying magnitude representation directly and obtained shorter lines for tie-compared to non-tie problems. These observations suggest that the processing benefit of tie problems comes at the cost of representational reduction of result meaning. This conclusion is discussed in the context of a recent model of arithmetic heuristics and biases.
KW  - AHAB
KW  - cognitive bias
KW  - mental arithmetic
KW  - numerical cognition
KW  - operational momentum
KW  - SNARC
KW  - tie problems
Y1  - 2018
U6  - https://doi.org/10.3389/fpsyg.2018.02453
SN  - 1664-1078
VL  - 9
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Fischer, Martin H.
A1  - Miklashevsky, Alex A.
A1  - Shaki, Samuel
T1  - Commentary : The Developmental Trajectory of the Operational Momentum Effect
JF  - Frontiers in Psychology
KW  - embodied cognition
KW  - operational momentum
KW  - SNARC effect
KW  - mental arithmetic
KW  - numerical cognition
Y1  - 2018
U6  - https://doi.org/10.3389/fpsyg.2018.02259
SN  - 1664-1078
N1  - A Commentary on The Developmental Trajectory of the Operational Momentum Effect by Pinheiro-Chagas, P., Didino, D., Haase, V. G., Wood, G., and Knops, A. (2018). Front. Psychol. 9:1062 doi: 10.3389/fpsyg.2018.01062
VL  - 9
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Felisatti, Arianna
A1  - Laubrock, Jochen
A1  - Shaki, Samuel
A1  - Fischer, Martin H.
T1  - A biological foundation for spatial–numerical associations
BT  - the brain's asymmetric frequency tuning
JF  - Annals of the New York Academy of Sciences
N2  - "Left" and "right" coordinates control our spatial behavior and even influence abstract thoughts. For number concepts, horizontal spatial-numerical associations (SNAs) have been widely documented: we associate few with left and many with right. Importantly, increments are universally coded on the right side even in preverbal humans and nonhuman animals, thus questioning the fundamental role of directional cultural habits, such as reading or finger counting. Here, we propose a biological, nonnumerical mechanism for the origin of SNAs on the basis of asymmetric tuning of animal brains for different spatial frequencies (SFs). The resulting selective visual processing predicts both universal SNAs and their context-dependence. We support our proposal by analyzing the stimuli used to document SNAs in newborns for their SF content. As predicted, the SFs contained in visual patterns with few versus many elements preferentially engage right versus left brain hemispheres, respectively, thus predicting left-versus rightward behavioral biases. Our "brain's asymmetric frequency tuning" hypothesis explains the perceptual origin of horizontal SNAs for nonsymbolic visual numerosities and might be extensible to the auditory domain.
KW  - hemispheric asymmetry
KW  - numerical cognition
KW  - SNARC effect
KW  - spatial
KW  - frequency tuning
KW  - spatial-numerical associations
KW  - spatial vision
Y1  - 2020
U6  - https://doi.org/10.1111/nyas.14418
SN  - 0077-8923
SN  - 1749-6632
VL  - 1477
IS  - 1
SP  - 44
EP  - 53
PB  - Wiley
CY  - Hoboken
ER  -