Determined developmental level to be a major factor at lower level chemistry courses but not as important for higher level ones. Suggests Lawson's test to be a useful tool in studying the basics of chemical education, evaluating courses as to the appropriate level, and in counseling individual students. (Author/JN)

Presents 11 short descriptions on the applications of computers in chemistry classrooms and laboratories, including among others, using microcomputer graphics to teach quantum theory, a versatile and inexpensive instrument/computer interface, and a microcomputer-controlled scintillation spectrometer. (JN)

Describes teaching an activity-oriented high school chemistry course during a six-week summer session, including personal experiences of the teacher, laboratory activities completed, examinations, parental involvement, and some innovations that worked. (JN)

Includes information on: (1) relationship of art and science; (2) paintings' early history; (3) Egyptian, Greek, Chinese, Byzantine, and Medieval painting; (4) chemical analysis of pigments; (5) chemistry of early pigments; and (6) paint media. Tabular data are provided on chemical names for artists' pigments with their earliest known dates. (CS)

Focuses on the chemistry of fibers commonly used by artists. Presents information regarding the reactions of these fibers to dyes, bleaches, solvents, and other selected agents of design. Tables provide a classification of natural and manufactured fibers, characteristics, chemical formulas and reactions of selected fibers, and characteristics of…

Provides a brief history of natural dyes. Chemical formulas are provided for flavonoids, luteolin, genistein, brazilin, tannins, terpenes, naphthoquinone, anthraquinone, and dyes with an alkaloid structure. Also discusses chemical background of different dye processes. (CS)

Discusses recent review articles in various kinds of titration. Also discusses new research in apparatus and methodology, acid-base reactions, precipitation and complexing reactions, oxidation-reduction reactions, and nomenclature. Cites 338 references. (CS)

Discusses recent trends in thermal analysis, including differential thermal analysis-dynamic scanning calorimetry, thermogravimetry, and other techniques. Cites 207 references. (CS)

Reviews applications in research and analytical characterization of compounds and materials in the field of X-ray diffraction, emphasizing new developments in applications and instrumentation in both single crystal and powder diffraction. Cites 414 references. (CS)

Emphasizes trends in the development of six topics concerning analytical electrochemistry, including books and reviews (34 references cited), mass transfer (59), charge transfer (25), surface effects (33), homogeneous reactions (21), and instrumentation (31). (CS)

Reports developments involving the experimental aspects of finite and current analytical electrochemistry including electrode materials (97 cited references), hydrodynamic techniques (56), spectroelectrochemistry (62), stripping voltammetry (70), voltammetric techniques (27), polarographic techniques (59), and miscellany (12). (CS)

Reviews current developments, methodology, and applications that illustrate new approaches or trends in nonaqueous titrations. Cites 329 references. (CS)

Surveys important trends in magnetic susceptibility, with particular emphasis on catalysis and amorphous magnetic materials. Cites 198 references. (CS)

Covers publications on fundamental aspects, production, evaluation, and applications of ion-selective electrodes which have appeared between Fall 1977 and Fall 1979. Cites 719 references. (CS)

Reviews current information regarding fundamental and practical research in flame emission, atomic absorption, and fluorescence spectrometry. Cites 630 references. (CS)