Thomas R. Tretter scite author profile

To reduce curricular fragmentation in science education, reform recommendations include using common, unifying themes such as scaling to enhance curricular coherence. This study involved 215 participants from five groups (grades 5, 7, 9, and 12, and doctoral students), who completed written assessments and card sort tasks related to their conceptions of size and scale, and then completed individual interviews. Results triangulated from the data sources revealed the boundaries between and characteristics of scale size ranges that are well distinguished from each other for each group. Results indicate that relative size information was more readily understood than exact size, and significant size landmarks were used to anchor this relational web of scales. The nature of past experiences situated along two dimensions—from visual to kinesthetic in one dimension, and wholistic to sequential in the other—were shown to be key to scale cognition development. Commonalities and differences between the groups are highlighted and discussed. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 43: 282–319, 2006

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Accuracy of scale conceptions in science: Mental maneuverings across many orders of spatial magnitude

Tretter

Jones

Minogue

2006

J. Res. Sci. Teach.

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The use of unifying themes that span the various branches of science is recommended to enhance curricular coherence in science instruction. Conceptions of spatial scale are one such unifying theme. This research explored the accuracy of spatial scale conceptions of science phenomena across a spectrum of 215 participants: fifth grade, seventh grade, ninth grade, twelfth grade, and doctoral students in science. Conceptions spanning sizes from one nanometer to one billion meters were investigated through use of written assessments and individual interviews. Results showed that accuracy of conceptions at small scale were not symmetrical with respect to conceptions at large scale. Large scale accuracy tended to decline in a smooth, uniform fashion as the scale increased, whereas small scale accuracy displayed a discontinuity at the microscopic level. To conceptually interact with scales far removed from human scale, experts used strategies of mentally jumping to a new scale‐world. Experts tended not to transition smoothly between the differently scaled worlds but rather to make a discontinuous leap, maintaining abstract linkages between the worlds via mathematics. Implications of these findings for curriculum development and classroom instruction are discussed. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 43: 1061–1085, 2006

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Haptic augmentation of science instruction: Does touch matter?

et al. 2005

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This study investigated the impact of haptic augmentation of a science inquiry program on students' learning about viruses and nanoscale science. The study assessed how the addition of different types of haptic feedback (active touch and kinesthetic feedback) combined with computer visualizations influenced middle and high school students' experiences. The influences of a PHANToM (a sophisticated haptic desktop device), a Sidewinder JONES ET AL.(a haptic gaming joystick), and a mouse (no haptic feedback) interface were compared. The levels of engagement in the instruction and students' attitudes about the instructional program were assessed using a combination of constructed response and Likert scale items. Potential cognitive differences were examined through an analysis of spontaneously generated analogies that appeared during student discourse. Results showed that the addition of haptic feedback from the haptic-gaming joystick and the PHANToM provided a more immersive learning environment that not only made the instruction more engaging but may also influence the way in which the students construct their understandings about abstract science concepts.C 2005 Wiley Periodicals, Inc. Sci Ed 90: 111 -123, 2006

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English Language Learners and Academic Achievement: Revisiting the Threshold Hypothesis

2011

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This nonexperimental study explored the predictive strength of English proficiency levels on academic achievement of middle school students in a sample of 17,470 native English‐speaking (NES) students, 558 English language learners (current ELLs), and 500 redesignated fluent English proficient students (former ELLs). Results of multilevel analyses indicated that after controlling for relevant student‐ and school‐level characteristics, former ELLs significantly outperformed current ELL and NES students in reading (effect sizes: 1.07 and 0.52) and mathematics (effect sizes: 0.86 and 0.42). The results support Cummins's (1979, 2000) lower level threshold hypothesis predicting that upon reaching adequate proficiency in the language of schooling and testing, ELLs would no longer experience academic disadvantages. Refinements for the theory and directions for future research are discussed.

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Experienced and Novice Teachers’ Concepts of Spatial Scale

Jones

Tretter

Taylor

et al. 2008

International Journal of Science Education

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Thomas R. Tretter

Conceptual boundaries and distances: Students' and experts' concepts of the scale of scientific phenomena

Accuracy of scale conceptions in science: Mental maneuverings across many orders of spatial magnitude

Haptic augmentation of science instruction: Does touch matter?

English Language Learners and Academic Achievement: Revisiting the Threshold Hypothesis

Experienced and Novice Teachers’ Concepts of Spatial Scale

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