Understanding the relationship between student attitudes and student learning

Cahill, Michael J.; McDaniel, Mark A.; Frey, Regina F.; Hynes, Kathryn; Repice, Michelle D.; Zhao, Jiuqing; Trousil, Rebecca

doi:10.1103/physrevphyseducres.14.010107

Cited by 36 publications

(29 citation statements)

References 22 publications

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“…In many cases, students even know what physicists would say in the situations probed, but do not agree with them [1]. In addition to being important in themselves, attitudes that align with experts also somewhat predict learning [2][3][4][5]. Instruments such as Views about Science Survey (VASS) [6], Maryland Expectations about Science Survey (MPEX) [7], and the Colorado Learning Attitudes about Science Survey (CLASS) [8] have been developed to measure these attitudes.…”

Section: Introductionmentioning

confidence: 99%

“…Cahill et al [12] identified two categories for learning, using 25 statements, and proceeded to validate those with a confirmatory factor analysis (CFA). CLASS scores have been found to correlate weakly with learning outcomes [2,4,5] and experiencing high levels of challenge, interest, and skill at the same time (optimal learning moments) [13].…”

Section: Introductionmentioning

confidence: 99%

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Validity of Colorado Learning Attitudes about Science Survey for a high-achieving, Finnish population

Kontro

Buschhüter

2020

Phys. Rev. Phys. Educ. Res.

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The Colorado Learning Attitudes about Science Survey (CLASS) is an instrument which is widely used in physics education to characterize students' attitudes toward physics and learning physics and compare them with those of experts. While CLASS has been extensively validated for use in the context of higher education institutions in the United States, there has been less information about its use with European students. We have studied the structural, content, and substantive aspects of validity of CLASS by first doing a confirmatory factor analysis of N ¼ 642 sets of student answers from the University of Helsinki, Finland. The students represented a culturally and demographically different subset of university physics students than in previous studies. The confirmatory factor analysis used a 3-factor, 15-item factor structure as a starting point and the resulting factor structure was similar to the original. Just minor modifications were needed for fit parameters to be in the acceptable range. We explored the differences by student interviews and consultation of experts. With the exception of one item, they supported the new 14-item, 3-factor structure. The results show that the interpretations made from CLASS results are mostly transferable, and CLASS remains a useful instrument for a wide variety of populations.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Validity of Colorado Learning Attitudes about Science Survey for a high-achieving, Finnish population

Kontro

Buschhüter

2020

Phys. Rev. Phys. Educ. Res.

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“…More targeted predictors focus on what knowledge and skills a student needs to succeed in a particular subject matter, such as the Force Concept Inventory (FCI). This inventory measures student understanding of force and related kinematics, and correlates with performance in introductory physics classes at both the high school and university levels (Hestenes, Wells, & Swackhamer, ; Savinainen & Scott, ; see also Cahill et al, , extending these findings to second semester introductory university courses, using the Brief Electricity and Magnetism Assessment [BEMA] as a predictor of course performance). However, while such measures can be extremely useful within specific classes, they are limited in their ability to generalize across subject areas.…”

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confidence: 99%

Structure Building Predicts Grades in College Psychology and Biology

Arnold

Daniel

Jensen

et al. 2016

Applied Cognitive Psychology

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Knowing what skills underlie college success can allow students, teachers, and universities to identify and to help at-risk students. One skill that may underlie success across a variety of subject areas is structure building, the ability to create mental representations of narratives (Gernsbacher, Varner, & Faust, 1990). We tested if individual differences in structure-building ability predicted success in two college classes: introductory to psychology and introductory biology. In both cases, structure building predicted success. This effect was robust, with structure building explaining variance in course grades even after accounting for high school GPA and SAT scores (in the psychology course) or a measure of domain knowledge (in the biology course). The results support the claim that structure building is an important individual difference, one that is associated with learning in different domains.

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“…These expert-like beliefs are often seen as a desired learning goal as such. They have also been shown to correlate weakly with learning [28][29][30]. They also correlate with experiencing high levels of challenge, interest and skill at the same time (optimal learning moments) [31].…”

Section: Measuring Development Of Skill and Attitudesmentioning

confidence: 99%

Combining Surveys and Sensors to Explore Student Behaviour

Kontro

Génois

2020

Education Sciences

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Student belongingness is important for successful study paths, and group work forms an important part of modern university physics education. To study the group dynamics of introductory physics students at the University of Helsinki, we collected network data from seven laboratory course sections of approximately 20 students each for seven consecutive weeks. The data was collected via the SocioPatterns platform, and supplemented with students' major subject, year of study and gender. We also collected the Mechanics Baseline Test to measure physics knowledge and the Colorado Learning Attitudes about Science Survey to measure attitudes. We developed metrics for studying the small networks of the laboratory sessions by using connections of the teaching assistant as a constant. In the network, we found both demographically homogeneous and heterogeneous groups that are stable. While some students are consistently loosely connected to their networks, we were not able to identify risk factors. Based on our results, the physics laboratory course is equally successful in building strongly connected groups regardless of student demographics in the sections or the formed small groups. SocioPatterns supplemented with surveys thus provides an opportunity to look into the dynamics of students' social networks.

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Understanding the relationship between student attitudes and student learning

Cited by 36 publications

References 22 publications

Validity of Colorado Learning Attitudes about Science Survey for a high-achieving, Finnish population

Validity of Colorado Learning Attitudes about Science Survey for a high-achieving, Finnish population

Structure Building Predicts Grades in College Psychology and Biology

Combining Surveys and Sensors to Explore Student Behaviour

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