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Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations. / Huang, Hsin Mei E.; Chang, Hong Wei; Hoth, Jessica et al.
In: International Journal of Science and Mathematics Education, 2025.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Huang, HME, Chang, HW, Hoth, J, Ruwisch, S & Heinze, A 2025, 'Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations', International Journal of Science and Mathematics Education. https://doi.org/10.1007/s10763-025-10571-w

APA

Huang, H. M. E., Chang, H. W., Hoth, J., Ruwisch, S., & Heinze, A. (in press). Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations. International Journal of Science and Mathematics Education. https://doi.org/10.1007/s10763-025-10571-w

Vancouver

Huang HME, Chang HW, Hoth J, Ruwisch S, Heinze A. Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations. International Journal of Science and Mathematics Education. 2025. doi: 10.1007/s10763-025-10571-w

Bibtex

@article{43d65ff73eb74cdbae94669acd24a22f,
title = "Junior High School Students{\textquoteright} Length Estimation Skills and Use of Strategies for Making Estimations",
abstract = "Determining good estimates for lengths of objects or distances is an important ability for many professions, but also in everyday life. However, many students struggle with estimating lengths. In a study with N = 335 junior high school students, we investigated their skills of estimating the lengths of daily-use objects and their use of estimation strategies. To understand students{\textquoteright} mathematical thinking while processing mental measurement, follow-up interviews were conducted with 45 participants. Results revealed students{\textquoteright} moderate length estimation skills. Their performance did not vary by grade level, but differences in performance were found among the various estimation situations related to size and accessibility of the to-be-estimated objects (TBEOs). Concerning the estimation strategies, students used the benchmark strategy, prior knowledge, and a mix of these two strategies, but also less sophisticated strategies such as guessing and eyeballing. A few students did not clearly describe any strategies. The operations of unit iteration and decomposition and re-composition for processing mental measurement were found based on the analysis of strategies and interview responses. To strengthen students{\textquoteright} length estimation skills, suggestions for measurement estimation tasks and instruction that highlights students{\textquoteright} understanding of size and scale knowledge and their skills to use benchmarks mentally for measurement estimation are discussed.",
keywords = "Estimation situation, Estimation strategy, Grade, Length estimation, Mathematics, Didactics of Mathematics",
author = "Huang, {Hsin Mei E.} and Chang, {Hong Wei} and Jessica Hoth and Silke Ruwisch and Aiso Heinze",
note = "Publisher Copyright: {\textcopyright} National Science and Technology Council, Taiwan 2025.",
year = "2025",
doi = "10.1007/s10763-025-10571-w",
language = "English",
journal = "International Journal of Science and Mathematics Education",
issn = "1571-0068",
publisher = "Springer Netherlands",

}

RIS

TY - JOUR

T1 - Junior High School Students’ Length Estimation Skills and Use of Strategies for Making Estimations

AU - Huang, Hsin Mei E.

AU - Chang, Hong Wei

AU - Hoth, Jessica

AU - Ruwisch, Silke

AU - Heinze, Aiso

N1 - Publisher Copyright: © National Science and Technology Council, Taiwan 2025.

PY - 2025

Y1 - 2025

N2 - Determining good estimates for lengths of objects or distances is an important ability for many professions, but also in everyday life. However, many students struggle with estimating lengths. In a study with N = 335 junior high school students, we investigated their skills of estimating the lengths of daily-use objects and their use of estimation strategies. To understand students’ mathematical thinking while processing mental measurement, follow-up interviews were conducted with 45 participants. Results revealed students’ moderate length estimation skills. Their performance did not vary by grade level, but differences in performance were found among the various estimation situations related to size and accessibility of the to-be-estimated objects (TBEOs). Concerning the estimation strategies, students used the benchmark strategy, prior knowledge, and a mix of these two strategies, but also less sophisticated strategies such as guessing and eyeballing. A few students did not clearly describe any strategies. The operations of unit iteration and decomposition and re-composition for processing mental measurement were found based on the analysis of strategies and interview responses. To strengthen students’ length estimation skills, suggestions for measurement estimation tasks and instruction that highlights students’ understanding of size and scale knowledge and their skills to use benchmarks mentally for measurement estimation are discussed.

AB - Determining good estimates for lengths of objects or distances is an important ability for many professions, but also in everyday life. However, many students struggle with estimating lengths. In a study with N = 335 junior high school students, we investigated their skills of estimating the lengths of daily-use objects and their use of estimation strategies. To understand students’ mathematical thinking while processing mental measurement, follow-up interviews were conducted with 45 participants. Results revealed students’ moderate length estimation skills. Their performance did not vary by grade level, but differences in performance were found among the various estimation situations related to size and accessibility of the to-be-estimated objects (TBEOs). Concerning the estimation strategies, students used the benchmark strategy, prior knowledge, and a mix of these two strategies, but also less sophisticated strategies such as guessing and eyeballing. A few students did not clearly describe any strategies. The operations of unit iteration and decomposition and re-composition for processing mental measurement were found based on the analysis of strategies and interview responses. To strengthen students’ length estimation skills, suggestions for measurement estimation tasks and instruction that highlights students’ understanding of size and scale knowledge and their skills to use benchmarks mentally for measurement estimation are discussed.

KW - Estimation situation

KW - Estimation strategy

KW - Grade

KW - Length estimation

KW - Mathematics

KW - Didactics of Mathematics

UR - http://www.scopus.com/inward/record.url?scp=105003437003&partnerID=8YFLogxK

U2 - 10.1007/s10763-025-10571-w

DO - 10.1007/s10763-025-10571-w

M3 - Journal articles

AN - SCOPUS:105003437003

JO - International Journal of Science and Mathematics Education

JF - International Journal of Science and Mathematics Education

SN - 1571-0068

ER -

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