William A. Prothero scite author profile

William A. Prothero

4Publications

197Citation Statements Received

45Citation Statements Given

How they've been cited

379

188

How they cite others

Affiliations

University of California, Santa Barbara, University of California, San Diego, Scripps Institution of Oceanography

Publications

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Analysis of Lines of Reasoning in Written Argumentation

Kelly

Regev

Prothero

2007

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Written texts play an important role in the activity systems generating knowledge in professional and educational settings. Empirical studies of the social construction of scientific knowledge in scientific and school settings have identified a range of purposes, uses, and genres of written communication (Kelly & Chen, 1999;Knorr-Cetina, 1999). The persuasive discourse of written argument is one such type of written communication that has played a significant role in the development of scientific knowledge (Bazerman, 1988;Gross, 1990). As noted by Yore et al. (2006), written communication provides a means to articulate evidence, warrants, and claims; reflect on proposed ideas; critique the scientific work of others; and establish proprietorship of intellectual property. An important dimension of science learning is the ability to use, assess, and critique evidence (Hodson, 2003;Yore et al., 2003). This ability includes understanding the relationships among questions, data, and claims, as well as how these relationships can be organized to formulate evidence for a given task and audience (Wallace et al., 2004). While the use of evidence in reasoning is a noted goal of scientific inquiry, little research has focused on the difficulties students may have integrating data with text to formulate coherent arguments. This chapter examines specific rhetorical demands necessary to prepare a successful scientific argument. The theoretical framework for this study incorporates research of writing to learn science and argumentation in science. We investigate these issues in a technology-rich university oceanography course designed for undergraduate non-science majors.The objective of this chapter is to identify and analyze the nature of the claims being made by the student writers and how these claims are developed as the lines of reasoning supporting a thesis. These analyses illustrate ways that large-scale earth data-sets can be used to prepare students to examine and employ evidence in scientific and socio-scientific domains. Drawing from the fields of argumentation theory and rhetoric of science as well as previous studies of an ongoing research program, specific epistemic and rhetorical criteria are developed and applied for the purposes of assessing the strength of the students' arguments. These criteria were brought to bear on two types of writing tasks with differing rhetorical demands. In one case, the students use geological data to develop and sustain theoretical arguments regarding plate tectonics. In a second application, the students consider broader earth-climate issues, using similar evidence-based argumentation practices, S. Erduran and M. P. Jiménez-Aleixandre (eds.), Argumentation in Science Education.137

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A Superconducting Gravimeter

Prothero

Goodkind

1968

116

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A gravimeter is constructed which uses the near perfect stability of superconducting persistent currents to make it a device with exceptional stability. A superconducting sphere is levitated in the magnetic field generated by two superconducting coils. Changes in gravitational or inertial forces in the vertical direction are measured as changes in the vertical position of the sphere or as changes in a feedback force, independent of the primary supporting force, which holds the sphere in a fixed position. In its present state of development the instrument produces data which, when compared to calculated earth tides, set an upper limit on the drift rate of ±6 parts in 109 of g/day. Several possible sources of drift are discussed.

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Pictorial aids for learning by doing in a multimedia geology simulation game.

Mayer

Mautone

Prothero

2002

Journal of Educational Psychology

132

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How can we help students learn to solve authentic geology problems within a virtual environment? The task was to survey an area of a planet's surface to identify the presence of various geological features such as a trench, ridge, basin, island, or seamount. Students who received prior pictorial representations of each of the possible features (pictorial scaffolding) performed more accurately than students who did not (in Experiments 2 and 3), but there was no significant effect (in Experiments 1 and 2) for including verbal statements about strategies for drawing lines and points (strategic scaffolding). Some cognitive apprenticeship techniques (such as pictorial scaffolding) are useful aids to learning in computer-based geology simulations.

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A low velocity zone underlying a fast-spreading rise crest

Orcutt

Kennett

Dorman

et al. 1975

Nature

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