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Journal Articles: 55 results
Lanthanum (La) and Actinium (Ac) Should Remain in the d-block  Laurence Lavelle
This paper discusses the reasons and implications of placing lanthanum and actinium in the f-block and lutetium and lawrencium in the d-block.
Lavelle, Laurence. J. Chem. Educ. 2008, 85, 1482.
Atomic Properties / Structure |
Inner Transition Elements |
Periodicity / Periodic Table |
Transition Elements
The Correlation of Binary Acid Strengths with Molecular Properties in First-Year Chemistry  Travis D. Fridgen
This article replaces contradictory explanations for the strengths of different binary acids in first-year chemistry textbooks with a single explanation that uses a BornHaber cycle involving homolyic bond dissociation energies, electron affinities, and ion solvation enthalpies to rationalize trends in the strengths of all binary acids.
Fridgen, Travis D. J. Chem. Educ. 2008, 85, 1220.
Acids / Bases |
Atomic Properties / Structure |
Aqueous Solution Chemistry |
Physical Properties |
Thermodynamics
Forecasting Periodic Trends: A Semester-Long Team Exercise for Nonscience Majors  John Tierney
Teams of students in a course for nonscience majors identify trends among the properties of elements in the periodic table, use Excel to plot and produce best-fit equations to describe relationships among those properties, and apply the resulting formulas to predict and justify the properties of missing elements.
Tierney, John. J. Chem. Educ. 2008, 85, 1215.
Atomic Properties / Structure |
Computational Chemistry |
Main-Group Elements |
Nonmetals |
Periodicity / Periodic Table |
Metals |
Student-Centered Learning
Factors That Influence Relative Acid Strength in Water: A Simple Model  Michael J. Moran
The pKa's of diverse aqueous acids HA correlate well with the sum of two gas-phase properties: the HA bond-dissociation enthalpy and the electron affinity of the A radical. It is suggested that rather than bond strength alone or bond polarity, the sum of the enthalpies of these two steps is a fairly good indicator of relative acidity.
Moran, Michael J. J. Chem. Educ. 2006, 83, 800.
Acids / Bases |
Aqueous Solution Chemistry |
Atomic Properties / Structure |
Free Radicals
Probing the Orbital Energy of an Electron in an Atom  James L. Bills
This article answers an appeal for simple theoretical interpretations of atomic properties. A theoretical snapshot of an atom, showing the screened nuclear charge and the electron to be ionized at its radius of zero kinetic energy, enables anyone to approximate its ionization energy.
Bills, James L. J. Chem. Educ. 2006, 83, 473.
Atomic Properties / Structure |
Main-Group Elements |
Periodicity / Periodic Table |
Physical Properties |
Quantum Chemistry |
Theoretical Chemistry
Trends in Ionization Energy of Transition-Metal Elements  Paul S. Matsumoto
Examines why, as the number of protons increase along a row in the periodic table, the first ionization energies of the transition-metal elements are relatively steady, but that for the main-group elements increases.
Matsumoto, Paul S. J. Chem. Educ. 2005, 82, 1660.
Atomic Properties / Structure |
Periodicity / Periodic Table |
Transition Elements
A Program of Computational Chemistry Exercises for the First-Semester General Chemistry Course  Scott E. Feller, Richard F. Dallinger, and Paul Caylor McKinney
A series of 13 molecular modeling exercises designed for the first-semester general chemistry course is described. The modeling exercises, which are used as both prelecture explorations and postlecture problems, increase in difficulty and in student independence.
Feller, Scott E.; Dallinger, Richard F.; McKinney, Paul Caylor. J. Chem. Educ. 2004, 81, 283.
Atomic Properties / Structure |
Computational Chemistry |
Molecular Modeling |
Molecular Properties / Structure
The Place of Zinc, Cadmium, and Mercury in the Periodic Table  William B. Jensen
Explanation for why the zinc group belongs with the main group elements; includes several versions of periodic tables.
Jensen, William B. J. Chem. Educ. 2003, 80, 952.
Periodicity / Periodic Table |
Main-Group Elements |
Transition Elements |
Descriptive Chemistry |
Atomic Properties / Structure
How We Teach Molecular Structure to Freshmen  Michael O. Hurst
Examination of how textbooks discuss various aspects of molecular structure; conclusion that much of general chemistry is taught the way it is for historical and not pedagogical reasons.
Hurst, Michael O. J. Chem. Educ. 2002, 79, 763.
Covalent Bonding |
Atomic Properties / Structure |
Molecular Properties / Structure |
Lewis Structures |
VSEPR Theory |
Valence Bond Theory |
MO Theory
Response to Lowe's Potential-Energy-Only Models  Lowe, John P.
Discussion of the suitability of a potential-only model for the successive ionization energies of sulfur for an introductory chemistry course.
Lowe, John P. J. Chem. Educ. 2002, 79, 430.
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry
Response to Lowe's Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155-156)  Frank Rioux and Roger L. DeKock
Discussion of the suitability of a potential-only model for the successive ionization energies of sulfur for an introductory chemistry course.
Rioux, Frank; DeKock, Roger L. J. Chem. Educ. 2002, 79, 429.
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry
Response to Potential-Energy-Only Models (re J. Chem. Educ. 2000, 77, 155-156)  Frank Rioux and Roger L. DeKock
Example of buffering power in deviations of the pH of sodium acetate from calculated values.
Rioux, Frank; DeKock, Roger L. J. Chem. Educ. 2002, 79, 29.
Acids / Bases |
Carboxylic Acids |
pH |
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry
Boiling Points of the Family of Small Molecules CHwFxClyBrz: How Are They Related to Molecular Mass?  Michael Laing
Investigating the role of molecular mass in determining boiling points of small molecules.
Laing, Michael. J. Chem. Educ. 2001, 78, 1544.
Atomic Properties / Structure |
Noncovalent Interactions |
Liquids |
Molecular Properties / Structure |
Physical Properties
Screening Percentages Based on Slater Effective Nuclear Charge as a Versatile Tool for Teaching Periodic Trends  Kimberley A. Waldron, Erin M. Fehringer, Amy E. Streeb, Jennifer E. Trosky, and Joshua J. Pearson
Using charge shielding to identify and explain trends within the periodic table.
Waldron, Kimberley A.; Fehringer, Erin M.; Streeb, Amy E.; Trosky, Jennifer E.; Pearson, Joshua J. J. Chem. Educ. 2001, 78, 635.
Periodicity / Periodic Table |
Theoretical Chemistry |
Atomic Properties / Structure
Electronegativity and Bond Type: Predicting Bond Type  Gordon Sproul
Important limitations with using electronegativity differences to determine bond type and recommendations for using electronegativities in general chemistry.
Sproul, Gordon. J. Chem. Educ. 2001, 78, 387.
Covalent Bonding |
Materials Science |
Periodicity / Periodic Table |
Ionic Bonding |
Atomic Properties / Structure |
Metallic Bonding
Ionization Energies, Parallel Spins, and the Stability of Half-Filled Shells  Peter Cann
Three methods for explaining the decrease in first ionization energies between group V and group VI elements are described and commented upon. The quantum mechanical origin of the unhelpful concept of half-shell stability is explained in terms of exchange energy, for which the alternative term parallel spin avoidance factor is suggested. It is recommended that for pre-university students the simplest explanation, in terms of Coulombic repulsion between two electrons occupying the same orbital, is adopted: it involves fewer difficult concepts than the other explanations and its predictions are no less accurate.
Cann, Peter. J. Chem. Educ. 2000, 77, 1056.
Atomic Properties / Structure |
Periodicity / Periodic Table |
Quantum Chemistry |
Theoretical Chemistry
The Genius of Slater's Rules  James L. Reed
With only a few modifications a procedure has been developed that yields the one-electron energies for atoms and ions with a level of detail very well suited for instruction in the structure and properties of atoms. It provides for the computation of very reasonable values for such properties as ionization energies, electron affinities, promotion energies, electronic transitions, and even XPS and ESCA spectra.
Reed, James L. J. Chem. Educ. 1999, 76, 802.
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry |
Spectroscopy
Chemistry of the Heaviest Elements-One Atom at a Time  Darleane C. Hoffman and Diana M. Lee
A 75-year perspective of the chemistry of the heaviest elements, including a 50-year retrospective view of past developments, a summary of current research achievements and applications, and some predictions about exciting, new developments that might be envisioned within the next 25 years.
Hoffman, Darleane C.; Lee, Diana M. J. Chem. Educ. 1999, 76, 331.
Chromatography |
Instrumental Methods |
Isotopes |
Nuclear / Radiochemistry |
Separation Science |
Descriptive Chemistry |
Enrichment / Review Materials |
Atomic Properties / Structure
Using Balls of Different Sports To Model the Variation of Atomic Sizes  Gabriel Pinto
In this article, an analogy is described about the order of magnitude of the variation of atomic sizes that can be used for discussion in introductory chemistry classes. The order of magnitude of this variation, involving microscopic magnitudes, is difficult for students to imagine.
Pinto, Gabriel. J. Chem. Educ. 1998, 75, 725.
Atomic Properties / Structure
Experimental 4s and 3d Energies in Atomic Ground States  James L. Bills
A new definition is given for the effective charge Zf. HF orbital energies e4s and e3d are used in concert with I4s and I3d to answer four questions: Why does the 4s sublevel fill before 3d? Why is ionization easier for 4s than 3d? When 4s23dn has e3d < e4s, why doesn't 4s23dn -> 4s13dn+1? Why are Cr and Cu each 4s13dn+1 instead of 4s23dn?
Bills, James L. J. Chem. Educ. 1998, 75, 589.
Atomic Properties / Structure
Deducing the Shell Model from Ionization Energies and the Use of Models in Introductory Chemistry  Ronald J. Gillespie, Richard S. Moog, and James N. Spencer
A major objection of Rioux and DeKock is the statement in the authors' earlier paper that electron repulsion is responsible for the relative ionization energies of H and He. The commentators work clearly shows that a quantum mechanical treatment of this problem reveals that kinetic energy considerations play a crucial role in these values. However, although their criticism is appropriate in the context of this more sophisticated QM treatment, it does not in any way invalidate the authors original paper, the goal of which was to provide a model, namely the shell model, for the electronic structure of atoms that is consistent with experimental ionization energies.
Gillespie, Ronald J.; Moog, Richard S.; Spencer, James N. J. Chem. Educ. 1998, 75, 539.
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry
The Crucial Role of Kinetic Energy in Interpreting Ionization Energies  Frank Rioux and Roger L. DeKock
The experimental ratio of the ionization energies of H and He is 1.81. The authors show that it is not correct to interpret this ratio using a classical Coulombic potential energy model. Rather a quantum mechanical model is required in which both kinetic and potential energy play a role.
Rioux, Frank; DeKock, Roger L. J. Chem. Educ. 1998, 75, 537.
Atomic Properties / Structure |
Quantum Chemistry |
Theoretical Chemistry
Dymystification at What Cost? (re J. Chem. Educ. 1996, 73, 617 and 627)  R. J. Gillespie, J. N. Spencer, R. S. Moog
Rationale for using Allen's scale of electronegativities.
Gillespie, R. J.; Spencer, J. N.; Moog, R. S. . J. Chem. Educ. 1997, 74, 480.
Atomic Properties / Structure
Dymystification at What Cost? (re J. Chem. Educ. 1996, 73, 617 and 627)  Eric Scerri
Errors and questionable rationale for using Allen's scale of electronegativities.
Scerri, Eric. J. Chem. Educ. 1997, 74, 480.
Atomic Properties / Structure
Electron Affinities of the Alkaline Earth Metals and the Sign Convention for Electron Affinity  John C. Wheeler
It has been known since 1987, both theoretically and experimentally, that the ion Ca- is stable. It is now certain that Sr-, Ba-, and Ra- are also stable, and accurate values for the electron affinities of Ca-, Sr-, and Ba- have been determined. Recommended values for these electron affinities, in the units commonly employed in introductory texts and with the sign convention used here, are 2.37, 5.03, and 13.95 kJ/mol for Ca, Sr, and Ba, respectively.
Wheeler, John C. J. Chem. Educ. 1997, 74, 123.
Metals |
Atomic Properties / Structure
Concept Maps in Chemistry Education  Alberto Regis, Pier Giorgio Albertazzi, Ezio Roletto
This article presents and illustrates a proposed application of concept maps in chemistry teaching in high schools. Three examples of the use of concept maps in chemistry teaching are reported and discussed with reference to: atomic structure, oxidation-reduction and thermodynamics.
Regis, Alberto; Albertazzi, Pier Giorgio; Roletto, Ezio. J. Chem. Educ. 1996, 73, 1084.
Learning Theories |
Atomic Properties / Structure |
Oxidation / Reduction |
Thermodynamics
Moseley's Work on X-Rays and Atomic Number  C. W. Haigh
Explanation of the relationship between Moseley's work in determining atomic numbers, the spectrum of the hydrogen atom, the Bohr theory, and Slater's rules for screening constants.
Haigh, C. W. J. Chem. Educ. 1995, 72, 1012.
Enrichment / Review Materials |
Periodicity / Periodic Table |
Atomic Properties / Structure |
Quantum Chemistry
A Student's Travels, Close Dancing, Bathtubs, and the Shopping Mall: More Analogies in Teaching Introductory Chemistry   Rayner-Canham, Geoff
Four analogies are described for use in introductory chemistry classes.
Rayner-Canham, Geoff J. Chem. Educ. 1994, 71, 943.
Atomic Properties / Structure |
Molecular Properties / Structure |
Equilibrium
Electronegativity and atomic charge  Reed, James L.
Because electronegativity is such a fundamental concept, it should be continually developed in sophistication throughout the curriculum; considers the energy function, atomic charges, and chemical reactivities.
Reed, James L. J. Chem. Educ. 1992, 69, 785.
Atomic Properties / Structure
A simple laboratory experiment illustrating the relative nature of atomic weights  Huff, Randolph B.; Evans, David W.
The concept of atomic weight scale remains a source of confusion for beginning chemistry students. This paper proposes a simple lab experience that could help students better understand this idea.
Huff, Randolph B.; Evans, David W. J. Chem. Educ. 1991, 68, 675.
Atomic Properties / Structure |
Periodicity / Periodic Table
How to get more from ionization energies in the teaching of atomic structure  Mirone, Paolo
A wealth of experimental data could be exploited more extensively and profitably than what is presently done in the teaching of atomic structure.
Mirone, Paolo J. Chem. Educ. 1991, 68, 132.
Atomic Properties / Structure |
Periodicity / Periodic Table
Periodic chart pedagogy  Yoder, Claude H.; Yoder, Carolyn S.
Questions based upon a hypothetical set of quantum numbers and their relationships; includes answers.
Yoder, Claude H.; Yoder, Carolyn S. J. Chem. Educ. 1990, 67, 759.
Periodicity / Periodic Table |
Atomic Properties / Structure
Why the Daniell cell works!  Martins, George F.
The strength of bonds between atoms in metals, the relative ease of removing electrons from atoms, and the energy lowering of the attraction of water molecules for positive ions in solution all aid beginning student's understanding of why reactions occur.
Martins, George F. J. Chem. Educ. 1990, 67, 482.
Atomic Properties / Structure |
Metals |
Electrolytic / Galvanic Cells / Potentials
The periodicity of electron affinity  Myers, R. Thomas
In general, the values of electron affinity for the elements can be understood in terms of their ground state electron configuration, and the screening (effective nuclear charge) exerted on the added electron by the electrons already present in the neutral atom.
Myers, R. Thomas J. Chem. Educ. 1990, 67, 307.
Atomic Properties / Structure |
Periodicity / Periodic Table
The nature of the chemical bond--1990: There are no such things as orbitals!  Ogilivie, J. F.
The author discusses the fundamental principles of quantum mechanics, the laws and theories, and the relationship of quantum-mechanics to atomic and molecular structure, as well as their relevance to chemical education.
Ogilivie, J. F. J. Chem. Educ. 1990, 67, 280.
Quantum Chemistry |
Atomic Properties / Structure |
Molecular Properties / Structure
A formula for calculating atomic radii of metals  Ping, Mei; Xiubin, Lei; Yuankai, Wen
In this paper, the authors present a theoretical formula for calculating metallic radii.
Ping, Mei; Xiubin, Lei; Yuankai, Wen J. Chem. Educ. 1990, 67, 218.
Atomic Properties / Structure |
Metals
Principles of electronegativity Part I. General nature  Sanderson, R. T.
The concept of electronegativity has been modified, expanded, and debated. The concept can be used to help students gain valuable insights and understanding of the cause-and-effect relationship between atomic structure and compound properties. This is the first in a series of articles that explores the important concept of electronegativity.
Sanderson, R. T. J. Chem. Educ. 1988, 65, 112.
Electrochemistry |
Periodicity / Periodic Table |
Noncovalent Interactions |
Atomic Properties / Structure |
Physical Properties |
Enrichment / Review Materials
Periodic contractions among the elements: Or, on being the right size  Mason, Joan
Contraction across the row, irregularities in the build up of the periodic table, the second row anomaly relativistic contraction and expansion among the heavier elements, post-transition anomaly, periodicities of physicochemical properties.
Mason, Joan J. Chem. Educ. 1988, 65, 17.
Descriptive Chemistry |
Periodicity / Periodic Table |
Atomic Properties / Structure
The squeezed-earth problem   Rhodes, Gale
This take-home-exam question promotes a discussion in class and demonstrates the conceptual difficulties in understanding protons and neutrons.
Rhodes, Gale J. Chem. Educ. 1986, 63, 970.
Atomic Properties / Structure |
Solid State Chemistry
The periodic table and electron configurations  Strong, Judith A.
This author shares her approach to having students learn electron configurations.
Strong, Judith A. J. Chem. Educ. 1986, 63, 834.
Atomic Properties / Structure
Developing models: What is the atom really like?  Records, Roger M.
Using physical and computer models to illustrate historical changes in our view of the atom.
Records, Roger M. J. Chem. Educ. 1982, 59, 307.
Atomic Properties / Structure |
Quantum Chemistry
Exchange stabilization and the variation of ionization energy in the pn and dn series  Blake, Antony B.
This article is concerned with two types of ionizations that are of special importance to chemists. The author's main purpose is to clarify current textbook interpretations of the peculiar decrease in ionization energy following completion of a half-filled p or d shell.
Blake, Antony B. J. Chem. Educ. 1981, 58, 393.
MO Theory |
Atomic Properties / Structure |
Periodicity / Periodic Table |
Quantum Chemistry
The experimental values of atomic electron affinities. Their selection and periodic behavior  Chen, E. C. M.; Wentworth, W. E.
Presents experimental values of atomic electron affinities and discusses their determination.
Chen, E. C. M.; Wentworth, W. E. J. Chem. Educ. 1975, 52, 486.
Atomic Properties / Structure |
Periodicity / Periodic Table
What is oxidation?  Herron, J. Dudley
Why do most teachers continue to define oxidation and reduction in terms of a gain and loss of electrons rather than in terms of a change in oxidation number? [Debut]
Herron, J. Dudley J. Chem. Educ. 1975, 52, 51.
Oxidation / Reduction |
Oxidation / Reduction |
Atomic Properties / Structure |
Reactions
Regularities and relations among ionization potentials of nontransition elements  Liebman, Joel F.
Provides several semiempirical procedures for investigating ionization potentials.
Liebman, Joel F. J. Chem. Educ. 1973, 50, 831.
Atomic Properties / Structure |
Periodicity / Periodic Table
The Rutherford scattering experiment: CAI in the laboratory  Garbarino, John R.; Wartell, M. A.
Briefly describes a computer generated Rutherford scattering experiment.
Garbarino, John R.; Wartell, M. A. J. Chem. Educ. 1973, 50, 792.
Atomic Properties / Structure
Electron affinity. The zeroth ionization potential  Brooks, David W.; Meyers, Edward A.; Sicilio, Fred; Nearing, James C.
It is the purpose of this article to present the merits of adopting the terminology zeroth ionization potential to describe the energy change that occurs when a gaseous anion loses an electron.
Brooks, David W.; Meyers, Edward A.; Sicilio, Fred; Nearing, James C. J. Chem. Educ. 1973, 50, 487.
Atomic Properties / Structure |
Nomenclature / Units / Symbols
Interpretation of oxidation-reduction  Goodstein, Madeline P.
Presents an interpretation of the oxidation number system based upon the electronegativity principle, thus removing the adjective "arbitrary" frequently found in the descriptions of oxidation number.
Goodstein, Madeline P. J. Chem. Educ. 1970, 47, 452.
Oxidation / Reduction |
Oxidation State |
Atomic Properties / Structure |
Reactions
The use of tables of data in teaching: The students discover laws about ionization potentials  Haight, G. P., Jr.
Students are asked to see what they can discover in a table of ionization potentials of the elements like that presented in most general chemistry textbooks.
Haight, G. P., Jr. J. Chem. Educ. 1967, 44, 468.
Atomic Properties / Structure |
Periodicity / Periodic Table
The electron repulsion theory of the chemical bond. I. New models of atomic structure  Luder, W. F.
Describes the electron repulsion theory of electron configuration and applies it to representative elements.
Luder, W. F. J. Chem. Educ. 1967, 44, 206.
Atomic Properties / Structure |
Covalent Bonding |
Metals
Electronegativities and group IVA chemistry  Payne, Dwight A., Jr.; Fink, Frank Hall
The teacher of inorganic chemistry should present the representative elements of group IVA and their properties as an intellectual and empirical form of investigation rather than as a mere collection of information.
Payne, Dwight A., Jr.; Fink, Frank Hall J. Chem. Educ. 1966, 43, 654.
Atomic Properties / Structure |
Periodicity / Periodic Table
Atomic models in teaching chemistry  Sanderson, R. T.
Contains directions for constructing and using atomic models for instructional purposes.
Sanderson, R. T. J. Chem. Educ. 1960, 37, 307.
Atomic Properties / Structure
A complete table of electronegativities  Little, Elbert J., Jr.; Jones, Mark M.
Provides a complete periodic table of electronegativity values.
Little, Elbert J., Jr.; Jones, Mark M. J. Chem. Educ. 1960, 37, 231.
Periodicity / Periodic Table |
Atomic Properties / Structure
A new periodic chart with electronegativities  Sanderson, R. T.
This paper describes a new chart that has been designed to portray clearly and vividly patterns in relative atomic radius, electronic configuration, and electronegativity.
Sanderson, R. T. J. Chem. Educ. 1956, 33, 443.
Periodicity / Periodic Table |
Atomic Properties / Structure
Regularities among the representative elements: The "paired electron rule"  Condon, F. E.
If the oxidation states characteristic of various groups are correlated in terms of electron subshells, they become reasonable and logical rather than mere facts to be memorized.
Condon, F. E. J. Chem. Educ. 1954, 31, 651.
Periodicity / Periodic Table |
Atomic Properties / Structure |
Oxidation State