2022
DOI: 10.31234/osf.io/42u3a
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Integrated Knowledge of Rational Number Notations Predicts Children's Math Achievement and Understanding of Numerical Magnitudes

Abstract: We propose that integrated number sense, the ability to fluidly translate and compare magnitudes within and across notations, is central to understanding of rational numbers. Consistent with this hypothesis, two studies of 6th through 8th grade students (N=264 and N=46) indicated that accuracy comparing magnitudes within and across notations predicted overall math achievement and fraction number line and arithmetic estimation accuracy. Cross-notation magnitude comparison accuracy (i.e., fraction vs. decimal, p… Show more

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Cited by 9 publications
(31 citation statements)
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“…This work suggests that a well-chosen and well-designed visual display can highlight mathematical relations and promote mathematically accurate reasoning—the mere presentation of a number line without instructional intervention was sufficient to improve performance. Number lines may derive their advantage from alignment with the mental number line (Okamoto & Case, 1996; Dehaene, 2011; Siegler et al, 2011) and from implicitly drawing connections between the fractional components and percentages (Moss & Case, 1999; Schiller, 2020). This research bridges prior work in education contexts that has demonstrated a number line advantage over other types of visual displays for helping learners reason with ratios (Fazio et al, 2016; Fuchs et al, 2013, 2014; Gunderson et al, 2019; Hamdan & Gunderson, 2017; Moss & Case, 1999; Rittle-Johnson et al, 2001; Saxe et al, 2013; Schneider et al, 2009; Sidney, Thalluri, et al, 2019; Siegler et al, 2011).…”
Section: Discussionmentioning
confidence: 99%
“…This work suggests that a well-chosen and well-designed visual display can highlight mathematical relations and promote mathematically accurate reasoning—the mere presentation of a number line without instructional intervention was sufficient to improve performance. Number lines may derive their advantage from alignment with the mental number line (Okamoto & Case, 1996; Dehaene, 2011; Siegler et al, 2011) and from implicitly drawing connections between the fractional components and percentages (Moss & Case, 1999; Schiller, 2020). This research bridges prior work in education contexts that has demonstrated a number line advantage over other types of visual displays for helping learners reason with ratios (Fazio et al, 2016; Fuchs et al, 2013, 2014; Gunderson et al, 2019; Hamdan & Gunderson, 2017; Moss & Case, 1999; Rittle-Johnson et al, 2001; Saxe et al, 2013; Schneider et al, 2009; Sidney, Thalluri, et al, 2019; Siegler et al, 2011).…”
Section: Discussionmentioning
confidence: 99%
“…As it turns out, many people have more negative attitudes about math involving fractions and percentages than about math involving natural numbers (Sidney et al, 2021) and prefer to avoid doing math. Furthermore, objective numeracy scales are often presented as word problems, which are notoriously difficult to parse (Koedinger & Nathan, 2004) and may result in impulsive calculation (Schiller, 2020). Impulsive calculation (i.e., “plug and chug”) occurs when people read a math problem and immediately begin solving it before trying to make sense of the underlying structure of the problem (Chi et al, 1981).…”
Section: Consistency In Measurement and Accounting For Individual Dif...mentioning
confidence: 99%
“…Alerting adults that the natural-number bias exists may prompt them to slow down and “make sense” of a fraction-related math problem (i.e., rely on relational reasoning). This may encourage people to use more effective strategies to translate rational-number information into an easier-to-interpret format (Alibali & Sidney, 2015; Fazio et al, 2017; Fitzsimmons et al, 2020b; Mielicki, Fitzsimmons, Schiller, et al, 2022; Moss & Case, 1999; Sidney, Thalluri, et al, 2019; Siegler et al, 2011; Siegler & Thompson, 2014; Thompson et al, 2021) rather than impulsively calculating (Schiller, 2020) and overapplying natural-number knowledge to fraction problems. Such interventions would help adults with low numeracy overcome their misunderstanding of rational numbers to engage strategically with rational-number magnitudes (see Alibali & Sidney, 2015; Fitzsimmons et al, 2020b; Schiller et al, 2022; see Fig.…”
Section: Educational Interventions To Improve Risk Interpretationmentioning
confidence: 99%
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