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| Journal of Chemical Education | 4 |
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| Alick, Bonita | 1 |
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| Journal Articles | 8 |
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Peer reviewedTykodi, R. J. – Journal of Chemical Education, 1987
Presented are three methods for dealing with chemical problems involving reaction stoichiometry. (RH)
Descriptors: Chemical Reactions, Chemistry, College Science, Problem Solving
Peer reviewedKoch, Helmut – Science Teacher, 1995
Descriptors: Chemistry, Higher Education, Science Instruction, Scientific Concepts
Peer reviewedKumar, David D.; And Others – Journal of Science Education and Technology, 1994
Investigates HyperCard as a tool for assessment in science education and determines whether or not a HyperCard assessment instrument could differentiate between expert and novice student performance on balancing stoichiometric equations in science education. (ZWH)
Descriptors: Chemistry, Evaluation, High Schools, Measures (Individuals)
Peer reviewedUmland, Jean B. – Journal of Chemical Education, 1984
Discusses an instructional strategy in which stoichiometric reactions are presented in terms of a recipe. Solutions for two different stoichiometric problems are included. (JN)
Descriptors: Chemical Reactions, Chemistry, College Science, Higher Education
Peer reviewedAlick, Bonita; Atwater, Mary M. – School Science and Mathematics, 1988
Discusses problem-solving strategies and the successful strategy used to solve stoichiometric problems in general college chemistry courses. Reports that rereading problems, recalling a related concept, and reasoning deductively/inductively are the most heavily used strategies among 13 categories. (YP)
Descriptors: Blacks, Chemistry, Cognitive Processes, College Science
Peer reviewedSumrall, William J. – Science Teacher, 1991
Presents four stoichiometric problems and their solutions that use spot metal prices quoted from the newspaper to integrate economics and chemistry. (MDH)
Descriptors: Chemical Reactions, Chemistry, Computation, Cooperative Learning
Peer reviewedFigueira, Alvaro Rocha; And Others – Journal of Chemical Education, 1988
Examines the thermal decomposition of sodium bicarbonate to sodium carbonate. Encourages students to predict the end products and to use the stoichiometric results to determine if their predictions are correct. (MVL)
Descriptors: Chemical Analysis, Chemical Reactions, Chemistry, College Science
Peer reviewedGold, Marvin – Journal of Chemical Education, 1988
Describes a simple laboratory procedure for changing sodium carbonate into sodium chloride by adding concentrated HCl to cause the reaction and then evaporating the water. Claims a good stoichiometric yield can be obtained in one three-hour lab period. Suggests using fume hood for the reaction. (ML)
Descriptors: Chemistry, College Science, High Schools, Higher Education
