TIGER

Journal Articles: 75 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
Teaching Avogadro's Hypothesis and Helping Students to See the World Differently  Brett Criswell
This article uses a model from educational psychologyChi's theory of ontological misclassificationto explain the source of students' difficulties in understanding Avogadro's hypothesis and provide a method to successfully teach this fundamental concept.
Criswell, Brett. J. Chem. Educ. 2008, 85, 1372.
Atomic Properties / Structure |
Gases
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
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
E = mc2 for the Chemist: When Is Mass Conserved?  Richard S. Treptow
Einstein's famous equation is frequently misunderstood in textbooks and popular science literature. Its correct interpretation is that mass and energy are different measures of a single quantity known as massenergy, which is conserved in all processes.
Treptow, Richard S. J. Chem. Educ. 2005, 82, 1636.
Atomic Properties / Structure |
Nuclear / Radiochemistry |
Theoretical Chemistry |
Thermodynamics
Periodic Table Live! 3rd Edition: Abstract of Special Issue 17  Nicholas B. Adelman, Jon L. Holmes, Jerrold J. Jacobsen, John W. Moore, Paul F. Schatz, Jaclyn Tweedale, Alton J. Banks, John C. Kotz, William R. Robinson, and Susan Young
CD-ROM containing an interactive journey through the periodic table; includes information about each element, biographies of discoverers, videos of reactions, sources and uses, macro and atomic properties, and crystalline structures.
Adelman, Nicholas B.; Holmes, Jon L.; Jacobsen, Jerrold J.; Moore, John W.; Schatz, Paul F.; Tweedale, Jaclyn; Banks, Alton J.; Kotz, John C.; Robinson, William R.; Young, Susan. J. Chem. Educ. 2002, 79, 1487.
Descriptive Chemistry |
Periodicity / Periodic Table |
Solid State Chemistry |
Atomic Properties / Structure |
Physical Properties |
Reactions |
Crystals / Crystallography
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
The Mendeleev-Seaborg Periodic Table: Through Z = 1138 and Beyond  Paul J. Karol
Extending the periodic table to very large atomic numbers and its implications for the organization of the periodic table, consideration of relativistic effects, and the relative stability of massive and supermassive atomic nuclei.
Karol, Paul J. J. Chem. Educ. 2002, 79, 60.
Atomic Properties / Structure |
Nuclear / Radiochemistry |
Periodicity / Periodic Table |
Astrochemistry
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
The Mole, the Periodic Table, and Quantum Numbers: An Introductory Trio  Mali Yin and Raymond S. Ochs
Suggestions for presenting and developing three key ideas in chemistry: the mole, the periodic table, and quantum numbers.
Yin, Mali; Ochs, Raymond S. J. Chem. Educ. 2001, 78, 1345.
Nonmajor Courses |
Periodicity / Periodic Table |
Stoichiometry |
Atomic Properties / Structure
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
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
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
The Gravity of the Situation  Damon Diemente
This article presents a few calculations demonstrating that gravitational attraction between atoms is many orders of magnitude weaker than the gravitational attraction between Earth and an atom, and that the gravitational attraction between two ions is many orders of magnitude weaker than the electromagnetic attraction between them.
Diemente, Damon. J. Chem. Educ. 1999, 76, 55.
Atomic Properties / Structure |
Covalent Bonding |
Noncovalent Interactions
Modeling Nuclear Decay: A Point of Integration between Chemistry and Mathematics  Kent J. Crippen and Robert D. Curtright
A four-part activity utilizing a graphing calculator to investigate nuclear stability is described. Knowledge acquired through the activity provides background for answering the societal question of using nuclear materials for energy production.
Crippen, Kent J.; Curtright, Robert D. J. Chem. Educ. 1998, 75, 1434.
Nuclear / Radiochemistry |
Atomic Properties / Structure |
Chemometrics
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
A Mnemonic Method for Assigning the Electronic Configurations of Atoms  Nerea Iza and Manuel Gil
An algorithm for determining electronic configurations.
Iza, Nerea; Gil, Manuel. J. Chem. Educ. 1995, 72, 1025.
Atomic Properties / Structure |
Periodicity / Periodic Table
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
Three-Dimensional Graphical Visualization of One-Electron Atomic Orbitals  Ramachandran, B.; Kong, P. C.
173. Bits and pieces, 53. Software to produce contour plots of atomic orbitals.
Ramachandran, B.; Kong, P. C. J. Chem. Educ. 1995, 72, 406.
Atomic Properties / Structure
The Periodic Table of Atoms: Arranging the Elements by a Different Set of Rules  Treptow, Richard S.
The periodic table found in this paper is based on the properties of free gaseous atoms rather than atoms in a chemical environment.
Treptow, Richard S. J. Chem. Educ. 1994, 71, 1007.
Periodicity / Periodic Table |
Atomic Properties / Structure
Comments invited on changes in definition of "atomic weight"  Richardson, D. E.
Invitation to comment on changes in definition of "atomic weight" by the Commission on Atomic Weights and Isotopic Abundances of IUPAC.
Richardson, D. E. J. Chem. Educ. 1992, 69, 736.
Atomic Properties / Structure
An overhead projector demonstration of nuclear beta emission   Fortman, John J.
This demonstration illustrates an analogy for beta emission, with its concurrent conversion of a neutron to a proton.
Fortman, John J. J. Chem. Educ. 1992, 69, 162.
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
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
The electronic periodic chart of the elements  von Marttens Osorio, Hernan; Goldschmidt, Alfonso
A scheme for the arrangement of the elements that allows students to understand and write down the electronic configuration of any given element.
von Marttens Osorio, Hernan; Goldschmidt, Alfonso J. Chem. Educ. 1989, 66, 758.
Periodicity / Periodic Table |
Atomic Properties / Structure
What is an element?  Roundy, Willard H., Jr.
Problems with using outdated definitions of what constitutes an element.
Roundy, Willard H., Jr. J. Chem. Educ. 1989, 66, 729.
Isotopes |
Atomic Properties / Structure
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
Relative atomic mass scale: A teaching aid  Baumgartner, Erwin; Benitez, Carlos; Cirelli, Alicia Fernandez; Flores, Luz Lastres
Relative atomic mass can be a confusing concept for students and a source of frustration for instructors. These authors propose an idea called a RAM scale.
Baumgartner, Erwin; Benitez, Carlos; Cirelli, Alicia Fernandez; Flores, Luz Lastres J. Chem. Educ. 1988, 65, 16.
Atomic Properties / Structure |
Periodicity / Periodic Table
Electronegativity: A mnemonic rule  Kapellos, S.; Mavrides, A.
A rule for the electronegativities of the second and third row elements.
Kapellos, S.; Mavrides, A. J. Chem. Educ. 1987, 64, 941.
Atomic Properties / Structure |
Periodicity / Periodic Table
Periodic table message question  Wieder, Milton J.
This question presents an interesting technique for testing students' grasp of trends in periodicity.
Wieder, Milton J. J. Chem. Educ. 1987, 64, 320.
Periodicity / Periodic Table |
Atomic Properties / Structure
Pandemonium pesticide: A simple demonstration illustrating some fundamental chemical concepts  Kauffman, George B.; Chooljian, Steven H.; Ebner, Ronald D.
Demonstration that uses large, visible particles to simulate calculations of atomic / molecular mass, percentage composition, and molecular formula.
Kauffman, George B.; Chooljian, Steven H.; Ebner, Ronald D. J. Chem. Educ. 1985, 62, 870.
Atomic Properties / Structure |
Molecular Properties / Structure |
Stoichiometry |
Chemometrics
IUPAC table of atomic weights to four significant figures  Greenwood, N. N.; Peiser, H. S.
Masses for the first 103 elements scaled so the mass of 12C is exactly 12.
Greenwood, N. N.; Peiser, H. S. J. Chem. Educ. 1985, 62, 744.
Atomic Properties / Structure |
Periodicity / Periodic Table
Relativistic effects at the freshman level  Banna, M. Salim
Relativistic effects can be used to help explain a variety of physical and chemical properties.
Banna, M. Salim J. Chem. Educ. 1985, 62, 197.
Atomic Properties / Structure |
Physical Properties
Electronic structure prediction for transition metal ions  Nance, Lewis E.
A useful mnemonic for the electronic structure for M (II) elements.
Nance, Lewis E. J. Chem. Educ. 1984, 61, 339.
Transition Elements |
Metals |
Oxidation State |
Atomic Properties / Structure
Why teach the electron configuration of the elements are we do?  Millikan, Roger C.
Out of 106 elements in the table of electron configurations, there are 29 special cases - rules that only work 73% of the time seem hardly worth teaching.
Millikan, Roger C. J. Chem. Educ. 1982, 59, 757.
Atomic Properties / Structure |
Periodicity / Periodic Table
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
Elemental evolution and isotopic composition  Rydberg, J.; Choppin, G. R.
Reviews elemental abundances and the processes of elemental creation.
Rydberg, J.; Choppin, G. R. J. Chem. Educ. 1977, 54, 742.
Astrochemistry |
Periodicity / Periodic Table |
Atomic Properties / Structure |
Isotopes |
Nuclear / Radiochemistry |
Geochemistry
But if atoms are so tiny...  Kolb, Doris
Reviews the atomic theory, the laws of chemical combination, atomic weight scales, Avogadro's hypothesis, the development of the mass spectrograph, the meaning of atomic weight, and the difference between mass and weight in answering the question "If atoms are so small, how can we know how much they weigh?" [Debut]
Kolb, Doris J. Chem. Educ. 1977, 54, 543.
Atomic Properties / Structure |
Kinetic-Molecular Theory |
Mass Spectrometry
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
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
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
Transparent 3-D models of electron probability distributions  McClellan, A. L.
The authors describe transparent, three-dimensional models in which regions of high electron probability seem to float in space, without definite boundaries and with the "internal" variations of probability density clearly visible.
McClellan, A. L. J. Chem. Educ. 1970, 47, 761.
Atomic Properties / Structure |
Molecular Modeling
Nuclear concepts as part of the undergraduate chemistry curriculum  Caretto, A. A., Jr.; Sugihara, T. T.
It is proposed that there are distinct advantages to a freshman curriculum that introduces nuclear concepts simultaneously with the discussion of analogous atomic and molecular concepts.
Caretto, A. A., Jr.; Sugihara, T. T. J. Chem. Educ. 1970, 47, 569.
Nuclear / Radiochemistry |
Atomic Properties / Structure
The periodic systems of D. I. Mendeleev and problems of nuclear chemistry  Gol'danskii, V. I.; translated by Avakian, Peter
Examines the acquisition and identification of new chemical elements and the structure of the eighth period of the periodic table.
Gol'danskii, V. I.; translated by Avakian, Peter J. Chem. Educ. 1970, 47, 406.
Nuclear / Radiochemistry |
Atomic Properties / Structure |
Periodicity / Periodic Table |
Metals
The mole again!  Haack, N. H.
Discusses the definition of the mole.
Haack, N. H. J. Chem. Educ. 1970, 47, 324.
Atomic Properties / Structure |
Stoichiometry |
Nomenclature / Units / Symbols
Chemical queries. Especially for introductory chemistry teachers  Young, J. A.; Malik, J. G.; Choppin, Gregory R.; Young, J. P.
(1) Is there more to nuclear stability than only the neutron to proton ration? - answer by Choppin. (2) What are the products generated by the electrolysis of molten potassium nitrate with stainless steel electrodes? - answer by Young.
Young, J. A.; Malik, J. G.; Choppin, Gregory R.; Young, J. P. J. Chem. Educ. 1970, 47, 73.
Nuclear / Radiochemistry |
Isotopes |
Atomic Properties / Structure |
Electrochemistry
Chemical queries. Especially for introductory chemistry teachers  Young, J. A.; Malik, J. G.; Haight, Gilbert P., Jr.; Rechnitz, Garry A.
(1) Suggestions for presenting the relationship between the Fahrenheit and Celsius temperature scales. (2) Why are 4s rather than 3d electrons involved in the first and second ionizations of the first row transition elements? - answer by Haight. (3) The basis for the mnemonic ordering of atomic orbitals. (4) What is a liquid-liquid membrane electrode? Is it the same as an ion-selective electrode? - answer by Rechnitz.
Young, J. A.; Malik, J. G.; Haight, Gilbert P., Jr.; Rechnitz, Garry A. J. Chem. Educ. 1969, 46, 444.
Nomenclature / Units / Symbols |
Atomic Properties / Structure |
Transition Elements |
Periodicity / Periodic Table |
Electrochemistry |
Ion Selective Electrodes |
Membranes
Anticipating "valences" from electron configurations  Eichinger, Jack W., Jr.
Describes a procedure for predicting "valences" from electron configurations that works well for most metals.
Eichinger, Jack W., Jr. J. Chem. Educ. 1967, 44, 689.
Atomic Properties / Structure |
Metals |
Transition Elements
Behavior of electrons in atoms: Structure, spectra, and photochemistry of atoms (Hochstrasser, Robin M.)  Gregory, N. W.

Gregory, N. W. J. Chem. Educ. 1965, 42, 62.
Atomic Properties / Structure |
Photochemistry |
Spectroscopy |
Quantum Chemistry
Precise atomic and molecular models  Adler, Alan D.; Steele, William J.
Presents designs for skeletal or lattice and space-filling models
Adler, Alan D.; Steele, William J. J. Chem. Educ. 1964, 41, 656.
Atomic Properties / Structure |
Molecular Properties / Structure |
Molecular Modeling
The shapes of the f orbitals  Friedman, H. G., Jr.; Choppin, G. R.; Feuerbacher, D. G.
Presents pictures of the f orbitals and discusses their ligand field splitting.
Friedman, H. G., Jr.; Choppin, G. R.; Feuerbacher, D. G. J. Chem. Educ. 1964, 41, 354.
Atomic Properties / Structure |
Crystal Field / Ligand Field Theory
Energy level diagrams and extranuclear building of the elements  Keller, R. N.
Simplified diagrams showing the approximate order of electronic energy levels in atoms and mnemonic devices to aid in predicting electronic configurations for atoms are often misleading with respect to the actual energy of binding of the electrons in atoms and ions of the transition elements.
Keller, R. N. J. Chem. Educ. 1962, 39, 289.
Atomic Properties / Structure
The structure of the nucleus  Flowers, B. H.
Describes the liquid drop, shell, and optical models of the atomic nucleus.
Flowers, B. H. J. Chem. Educ. 1960, 37, 610.
Atomic Properties / Structure
An aid to teaching electronic configurations of atoms  Sanderson, R. T.
This simple shelving device uses styrofoam balls to represent electrons and effectively illustrates electron configurations.
Sanderson, R. T. J. Chem. Educ. 1960, 37, 262.
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
Teaching electron configurations  Eichinger, Jack W., Jr.
Time can be saved and confusion avoided by developing a systematic chart of the elements based on the energy levels of atomic orbitals very early in the general college chemistry course.
Eichinger, Jack W., Jr. J. Chem. Educ. 1957, 34, 504.
Atomic Properties / Structure |
Periodicity / Periodic Table
Lone pair electrons  Fowles, Gerald W. A.
The lone pair electrons, whether in simple or hybrid orbitals, have profound effects on the properties of the molecule; these effects may be discussed as bond angles, dipole moments, bond energies and lengths, and coordination and hydrogen bonding.
Fowles, Gerald W. A. J. Chem. Educ. 1957, 34, 187.
Atomic Properties / Structure |
Covalent Bonding |
Coordination Compounds |
Noncovalent Interactions |
Hydrogen Bonding |
Molecular Properties / Structure
A periodic table: The "Aufbauprinzip" as a basis for classification of the elements  Longuet-Higgins, H. C.
This note recommends a presentation of the periodic table designed to show as directly as possible how the place of an element in the table is related to the electronic structure of the atom.
Longuet-Higgins, H. C. J. Chem. Educ. 1957, 34, 30.
Periodicity / Periodic Table |
Atomic Properties / Structure
Letters to the editor  Foster, Laurence S.
Thanks a reader for pointing out a misstatement in an earlier article involving atomic mass units and avograms.
Foster, Laurence S. J. Chem. Educ. 1956, 33, 477.
Nomenclature / Units / Symbols |
Atomic Properties / Structure
Letters to the editor  Mayper, Stuart A.
Points out a misstatement in an earlier article involving atomic mass units and avograms.
Mayper, Stuart A. J. Chem. Educ. 1956, 33, 477.
Nomenclature / Units / Symbols |
Atomic Properties / Structure
A new periodic table based on the energy sequence of atomic orbitals  Walker, W. R.; Curthoys, G. C.
Since the theory of atomic and molecular orbitals has proven to be of such value in interpreting the data of inorganic chemistry, it is hoped that a new periodic table based on the energy sequence of atomic orbitals will be an aid to the further systematizing of chemical knowledge.
Walker, W. R.; Curthoys, G. C. J. Chem. Educ. 1956, 33, 69.
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
Electronegativities in inorganic chemistry. III  Sanderson, R. T.
The purpose of this paper is to illustrate some of the practical applications of electronegativities and charge distribution.
Sanderson, R. T. J. Chem. Educ. 1954, 31, 238.
Atomic Properties / Structure |
Covalent Bonding |
Acids / Bases
Atomic structure and the photoelectric effect  Brockett, Clyde P.
The ubiquitous and inexpensive 110-volt, 2-watt neon glow lamp appears to have been overlooked as a device well suited to a brief but telling demonstration of a few key principles of atomic structure that underlie the study of electrovalence and comparative chemistry.
Brockett, Clyde P. J. Chem. Educ. 1953, 30, 498.
Atomic Properties / Structure
Letters  Hakala, Reino W.
The author points out a reference to a relationship between atomic weight and atomic number.
Hakala, Reino W. J. Chem. Educ. 1953, 30, 44.
Atomic Properties / Structure |
Periodicity / Periodic Table
Letters  Ferreira, Ricardo Carvalho
The author points out earlier work associated with a recent Journal article dealing with the periodic table and the transition elements.
Ferreira, Ricardo Carvalho J. Chem. Educ. 1952, 29, 372.
Periodicity / Periodic Table |
Atomic Properties / Structure |
Transition Elements
A space model of the periodic system of elements  Clauson, Jennie E.
Illustrates a three-dimensional model of the periodic system of elements.
Clauson, Jennie E. J. Chem. Educ. 1952, 29, 250.
Periodicity / Periodic Table |
Atomic Properties / Structure
The periodic table: The 6d-5f mixed transition group  Coryell, Charles D.
With relatively few modifications, the Bohr-type periodic table presented by Glocker and Popov can be made to reflect more instructively the rather complex relationships obtained in the neighborhood of the 4f or gadolinium transition group and, more importantly, in the 6d-5f sequence extending from actinium through the region of uranium and the synthetic earths to element 103.
Coryell, Charles D. J. Chem. Educ. 1952, 29, 62.
Periodicity / Periodic Table |
Transition Elements |
Atomic Properties / Structure
Valency and the periodic table  Glockler, George; Popov, Alexander I.
Presents a modification of the Bohr-Thomsen-Akhumov periodic table stressing patterns to found among the rare earth elements.
Glockler, George; Popov, Alexander I. J. Chem. Educ. 1951, 28, 212.
Periodicity / Periodic Table |
Oxidation State |
Transition Elements |
Atomic Properties / Structure