Tricia Jones scite author profile

A prototype multimedia program, Multimedia and Mental Models in Chemistry (4M:CHEM), was developed to facilitate student learning in the classroom. 4M:CHEM utilizes a computer split-screen design to show simultaneous videos of real experiments, molecular-level animations of these experiments, real time graphs of macroscopic properties or structural diagrams, and chemical equations. These four windows can be shown individually or in any combination. When multiple windows are activated, actions in each are synchronized. These synchronized views of chemical phenomena may be paused and restarted in order to aid discussions of connections between and limitations of macroscopic, microscopic, and symbolic representations. The prototype program involves 32 experiments dealing with physical, gaseous, solution, and heterogeneous equilibria. Both qualitative and quantitative experiments are included to assist students in building chemical understanding and intuition as well as enhancing their quantitative problem solving abilities. An initial assessment of 4M:CHEM in two lecture sections for two one-hour presentations showed an increase in students' understanding of characteristics of systems at equilibrium and a marked decrease in misconceptions of chemical equilibrium.

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Evaluation of a Handheld Data Collection Interface for Science Learning

Parr

Jones

Songer

2004

Journal of Science Education and Technology

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Despite a rise in the use of handheld computers in classrooms, meaningful learning with personal digital assistant (PDA) technology remains poorly studied. We report results from an evaluation of customized handheld data collection software, the BioKIDS Sequence, which was used during an 8-week biodiversity curriculum unit by 5th and 6th grade students in southeastern Michigan. We provide new information on design decisions and usability of our customized software; discuss learner use and preferences; and report rates of data accuracy. Most students were able to enter simple animal observations using an icon-driven, largely linear interface. The interface helped expand the types of data students were aware of, and allowed them to view and review their entries and flag them as uncertain, factors important in supporting accurate data collection. Other BioKIDS research indicates students were subsequently able to see simple patterns in their data to guide the formulation of future hypotheses, questions, or conclusions. The BioKIDS Sequence and PDA technology therefore represent a meaningful use of technology to support scientific reasoning.

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Incidental learning during information retrieval : A hypertext experiment

Jones

1989

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Towards a typology of educational uses of hypermedia

Jones

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Cognitive Design of Educational Hypermedia: Towards a Typology of Navigation Features

Jones¹

1992

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Tricia Jones

Use of Simultaneous-Synchronized Macroscopic, Microscopic, and Symbolic Representations To Enhance the Teaching and Learning of Chemical Concepts

Evaluation of a Handheld Data Collection Interface for Science Learning

Incidental learning during information retrieval : A hypertext experiment

Towards a typology of educational uses of hypermedia

Cognitive Design of Educational Hypermedia: Towards a Typology of Navigation Features

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