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Attentional bias induced by solving simple and complex addition and subtraction problems

Bibliographic reference Masson, Nicolas ; Pesenti, Mauro. Attentional bias induced by solving simple and complex addition and subtraction problems. In: The Quarterly Journal of Experimental Psychology, Vol. 67, no. 8, p. 1514-1526 (2014)
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  1. Bonato Mario, Priftis Konstantinos, Marenzi Roberto, Zorzi Marco, Normal and Impaired Reflexive Orienting of Attention after Central Nonpredictive Cues, 10.1162/jocn.2009.21054
  2. Campbell Jamie I. D., Xue Qilin, Cognitive arithmetic across cultures., 10.1037/0096-3445.130.2.299
  3. Casarotti Marco, Michielin Marika, Zorzi Marco, Umiltà Carlo, Temporal order judgment reveals how number magnitude affects visuospatial attention, 10.1016/j.cognition.2006.09.001
  4. Chen Qi, Verguts Tom, Spatial Intuition in Elementary Arithmetic: A Neurocomputational Account, 10.1371/journal.pone.0031180
  5. Dehaene S., Cognition, 4, 1 (1992)
  6. Dehaene S., Mathematical Cognition, 1, 83 (1995)
  7. van Dijck Jean-Philippe, Abrahamse Elger L., Majerus Steve, Fias Wim, Spatial Attention Interacts With Serial-Order Retrieval From Verbal Working Memory, 10.1177/0956797613479610
  8. Di Luca Samuel, Pesenti Mauro, Vallar Giuseppe, Girelli Luisa, Numbers reorient visuo-spatial attention during cancellation tasks, 10.1007/s00221-012-3393-0
  9. Fayol Michel, Thevenot Catherine, The use of procedural knowledge in simple addition and subtraction problems, 10.1016/j.cognition.2012.02.008
  10. Fischer Martin H, Castel Alan D, Dodd Michael D, Pratt Jay, Perceiving numbers causes spatial shifts of attention, 10.1038/nn1066
  11. Galfano Giovanni, Rusconi Elena, Umiltà Carlo, Number magnitude orients attention, but not against one’s will, 10.3758/bf03194011
  12. Hubbard Edward M., Piazza Manuela, Pinel Philippe, Dehaene Stanislas, Interactions between number and space in parietal cortex, 10.1038/nrn1684
  13. Imbo Ineke, Vandierendonck André, De Rammelaere Stijn, The role of working memory in the carry operation of mental arithmetic: Number and value of the carry, 10.1080/17470210600762447
  14. Knops A., Thirion B., Hubbard E. M., Michel V., Dehaene S., Recruitment of an Area Involved in Eye Movements During Mental Arithmetic, 10.1126/science.1171599
  15. Knops André, Viarouge Arnaud, Dehaene Stanislas, Dynamic representations underlying symbolic and nonsymbolic calculation: Evidence from the operational momentum effect, 10.3758/app.71.4.803
  16. Knops André, Zitzmann Steffen, McCrink Koleen, Examining the Presence and Determinants of Operational Momentum in Childhood, 10.3389/fpsyg.2013.00325
  17. Lindemann O., Journal of Psychology, 219, 50 (2011)
  18. McCrink Koleen, Dehaene Stanislas, Dehaene-Lambertz Ghislaine, Moving along the number line: Operational momentum in nonsymbolic arithmetic, 10.3758/bf03192949
  19. McCrink Koleen, Wynn Karen, Operational momentum in large-number addition and subtraction by 9-month-olds, 10.1016/j.jecp.2009.01.013
  20. Pinhas Michal, Fischer Martin H., Mental movements without magnitude? A study of spatial biases in symbolic arithmetic, 10.1016/j.cognition.2008.09.003
  21. Ristic Jelena, Wright Alissa, Kingstone Alan, The number line effect reflects top-down control, 10.3758/bf03194010
  22. Schneider W., E-Prime user's guide (2002)
  23. Walsh V, A theory of magnitude: common cortical metrics of time, space and quantity, 10.1016/j.tics.2003.09.002