Identification and Assessment of Taiwanese Children’s Conceptions of Learning Mathematics

Chiu, Mei-Shiu

doi:10.1007/s10763-011-9283-2

Cited by 18 publications

(12 citation statements)

References 75 publications

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“…That is, while the category of "increasing one's knowledge" reflects less advanced conceptions, the category of "changing as a person" represents more sophisticated conceptions. Moreover, the categories of individuals' conceptions of learning may be different when they confront various educational domains such as engineering learning (Marshall et al, 1999), science learning (Tsai, 2004), mathematics learning (Chiu, 2012), or language learning (Drewelow & Mitchell, 2015). Researchers have also been interested in exploring individuals' conceptions of learning with the aid of technology, for example learning in blended contexts (Ellis, 2014) and learning via ubiquitous channels (Tsai et al, 2011).…”

Section: Conceptions Of Learningmentioning

confidence: 99%

Surveying Students’ Conceptions of Learning Science by Augmented Reality and their Scientific Epistemic Beliefs

Cheng

2018

EURASIA J MATH SCI T

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Previous studies have addressed the positive influences of augmented reality (AR) on science learning. However, few studies have explored how learners consider learning science by such an emerging technology, particularly from the perspectives of conceptions of learning. This study therefore aimed to develop a survey to understand students' conceptions of learning science by AR (CLSAR) considering their demographic characteristics and scientific epistemic beliefs. The CLSAR survey was validated by the responses of 267 junior high school students. The results indicate that the students generally exhibited positive conceptions, with stronger perceptions of learning science by AR as increasing motivation and interaction. Although they expressed less negative conceptions, their considerations of learning science by AR as diminishing learners' imagination about the scientific information were stronger than those as interrupting learning. The students' grade level played a role in their conceptions, but their gender did not. However, when considering the relationships between the students' scientific epistemic beliefs and their conceptions, the gender factor may interfere with the relations. Based on the findings, some suggestions for the development of AR-related science learning systems are discussed.

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Section: Conceptions Of Learningmentioning

confidence: 99%

Surveying Students’ Conceptions of Learning Science by Augmented Reality and their Scientific Epistemic Beliefs

Cheng

2018

EURASIA J MATH SCI T

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“…Acquaince with the relevant mathematical features, algorithms and rules alone does not enable success in problem solving. The decisions and strategies used while controlling or regulating one's actions; the emotions experienced while performing a mathematical task; and the beliefs related to the applications of mathematical tasks also influence an individual's success in problem solving (Chiu, 2012;Garofalo, 1989;Viholainen, Asikainen & Hirvonen, 2014). In particular, Gómez-Chacón (2000) points out that the elements of affect (emotions, attitudes, beliefs) of students are key factors in understanding their behaviour in mathematics and adds that beliefs are one of factors play the central role in success or failure in mathematics.…”

Section: Contribution Of This Paper To the Literaturementioning

confidence: 99%

Evaluating Students’ Beliefs in Problem Solving Process: A Case Study

Öztürk

Güven

2016

EURASIA J MATH SCI T

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Problem solving is not simply a process that ends when an answer is found; it is a scientific process that evolves from understanding the problem to evaluating the solution. This process is affected by several factors. Among these, one of the most substantial is belief. The purpose of this study was to evaluate the beliefs of high school students according to their explanations in the problem solving process. A case study was carried out with five students. Each of the students' problem solving processes was examined by means of clinical interviews and three problems were presented to the students. The results illustrate that the students who thought problem solving should be a short process and that they could address it by memorization of rules also believed that problem solving is difficult. This study concludes that not only beliefs affect the problem solving process, but also personal factors such as life experiences.

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“…It should be noted that these conceptions of learning science are distinct categories in a hierarchical sense rather than a continuum of learning phases. Further, a handful of researchers have attempted to develop and validate questionnaires inspired by the findings and methodology of Tsai (2004) to quantitatively measure Taiwanese students' conceptions of learning in the domain of science or in other domains such as physics, biology, or mathematics and to explore the considerable effects to other learning variables (e.g., Chiou et al 2013;Chiu 2010;Lee et al 2008). …”

Section: Conceptions Of Learningmentioning

confidence: 99%

Identifying Taiwanese University Students’ Physics Learning Profiles and Their Role in Physics Learning Self-Efficacy

2014

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The main purposes of this study were to identify Taiwanese university students' physics learning profiles in terms of their critical conceptions of learning physics and to compare their physics learning self-efficacy with the different learning profiles. A total of 250 Taiwanese undergraduates who were majoring in physics participated in this study and were invited to complete two instruments, physics learning profile and physics learning self-efficacy (PLSE). The main results indicated that, first, the two instruments developed in this study had satisfactory validity and reliability. Second, three fundamental physics learning profiles, the reproductive, transitional, and constructive profiles, were characterized based on the cluster analysis. It is also evident that the three learning profiles demonstrated different levels of selfefficacy for the five PLSE dimensions. The students with a reproductive profile tended to possess the lowest PLSE across the five dimensions. The students with a transitional profile may possess higher confidence in higher-order cognitive skills and laboratory activities than those with a reproductive profile. However, only those with a constructive profile, highlighting a comprehensive understanding of physics knowledge/concepts as well as de-emphasizing physics learning as preparing for tests and calculating and practising tutorial problems, possessed stronger PLSE in applying what they learned to real-world contexts as well as in scientifically communicating with others.

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Identification and Assessment of Taiwanese Children’s Conceptions of Learning Mathematics

Cited by 18 publications

References 75 publications

Surveying Students’ Conceptions of Learning Science by Augmented Reality and their Scientific Epistemic Beliefs

Surveying Students’ Conceptions of Learning Science by Augmented Reality and their Scientific Epistemic Beliefs

Evaluating Students’ Beliefs in Problem Solving Process: A Case Study

Identifying Taiwanese University Students’ Physics Learning Profiles and Their Role in Physics Learning Self-Efficacy

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