Mathematicians and visuo-spatial thinking

Research output: Contribution to conferencePosterResearchpeer-review

Standard

Mathematicians and visuo-spatial thinking. / Breman, Hester; Hoekzema, Renee; Sørensen, Henrik Kragh; Johansen, Mikkel Willum; Goebe, Rainer.

2024. Poster session presented at CCN 2024, Boston, Massachusetts, United States.

Research output: Contribution to conferencePosterResearchpeer-review

Harvard

Breman, H, Hoekzema, R, Sørensen, HK, Johansen, MW & Goebe, R 2024, 'Mathematicians and visuo-spatial thinking', CCN 2024, Boston, United States, 06/08/2024 - 09/08/2024. <https://2024.ccneuro.org/pdf/200_Paper_authored_MathematiciansAndVisuospatialThinking_CCN24.pdf>

APA

Breman, H., Hoekzema, R., Sørensen, H. K., Johansen, M. W., & Goebe, R. (2024). Mathematicians and visuo-spatial thinking. Poster session presented at CCN 2024, Boston, Massachusetts, United States. https://2024.ccneuro.org/pdf/200_Paper_authored_MathematiciansAndVisuospatialThinking_CCN24.pdf

Vancouver

Breman H, Hoekzema R, Sørensen HK, Johansen MW, Goebe R. Mathematicians and visuo-spatial thinking. 2024. Poster session presented at CCN 2024, Boston, Massachusetts, United States.

Author

Breman, Hester ; Hoekzema, Renee ; Sørensen, Henrik Kragh ; Johansen, Mikkel Willum ; Goebe, Rainer. / Mathematicians and visuo-spatial thinking. Poster session presented at CCN 2024, Boston, Massachusetts, United States.3 p.

Bibtex

@conference{a977eade717f47f1b5bbb45c50c19286,
title = "Mathematicians and visuo-spatial thinking",
abstract = "Do mathematicians only think in formulas? We surveyed mathematicians{\textquoteright} use of mental imagery via the OSIVQ test (n=232) and four open questions (n=222). Combining expert judgement and text mining count of the number of diagrams in 3799 arXiv articles, we investigated whether the amount of visuo-spatial thinking (if any) is related to an article{\textquoteright}s subdiscipline (as defined by the MSC2020 classification1). Finally, we explored the role of visuo-spatial thinking in mathematical research. We conclude that mathematicians are highly visual as measured by their OSIVQ spatial imagery scores. Roughly one third of the mathematicians in our survey used visuo-spatial thinking regularly and one-third frequently. This is not connected to their subdiscipline. Visual representations are important in mathematical practice. As one expert expressed: “images and even movies are continuously running in our minds”.",
author = "Hester Breman and Renee Hoekzema and S{\o}rensen, {Henrik Kragh} and Johansen, {Mikkel Willum} and Rainer Goebe",
year = "2024",
language = "English",
note = "null ; Conference date: 06-08-2024 Through 09-08-2024",
url = "https://2024.ccneuro.org/",

}

RIS

TY - CONF

T1 - Mathematicians and visuo-spatial thinking

AU - Breman, Hester

AU - Hoekzema, Renee

AU - Sørensen, Henrik Kragh

AU - Johansen, Mikkel Willum

AU - Goebe, Rainer

PY - 2024

Y1 - 2024

N2 - Do mathematicians only think in formulas? We surveyed mathematicians’ use of mental imagery via the OSIVQ test (n=232) and four open questions (n=222). Combining expert judgement and text mining count of the number of diagrams in 3799 arXiv articles, we investigated whether the amount of visuo-spatial thinking (if any) is related to an article’s subdiscipline (as defined by the MSC2020 classification1). Finally, we explored the role of visuo-spatial thinking in mathematical research. We conclude that mathematicians are highly visual as measured by their OSIVQ spatial imagery scores. Roughly one third of the mathematicians in our survey used visuo-spatial thinking regularly and one-third frequently. This is not connected to their subdiscipline. Visual representations are important in mathematical practice. As one expert expressed: “images and even movies are continuously running in our minds”.

AB - Do mathematicians only think in formulas? We surveyed mathematicians’ use of mental imagery via the OSIVQ test (n=232) and four open questions (n=222). Combining expert judgement and text mining count of the number of diagrams in 3799 arXiv articles, we investigated whether the amount of visuo-spatial thinking (if any) is related to an article’s subdiscipline (as defined by the MSC2020 classification1). Finally, we explored the role of visuo-spatial thinking in mathematical research. We conclude that mathematicians are highly visual as measured by their OSIVQ spatial imagery scores. Roughly one third of the mathematicians in our survey used visuo-spatial thinking regularly and one-third frequently. This is not connected to their subdiscipline. Visual representations are important in mathematical practice. As one expert expressed: “images and even movies are continuously running in our minds”.

M3 - Poster

Y2 - 6 August 2024 through 9 August 2024

ER -

ID: 400937760