Textbook-Integrated Guide to Educational Resources

TIGER

Journal Articles: 133 results

Greener Alternative to Qualitative Analysis for Cations without H₂S and Other Sulfur-Containing Compounds Indu Tucker Sidhwani and Sushmita Chowdhury
The classic technique for the qualitative analysis of inorganic salts and mixtures relies on highly toxic hydrogen sulfide. Increasing environmental awareness has prompted the development of a green scheme for the detection of cations by spot tests that is simple and fast.
Sidhwani, Indu Tucker; Chowdhury, Sushmita. J. Chem. Educ. 2008, 85, 1099.

Green Chemistry |

Qualitative Analysis |

Separation Science

Developing and Disseminating NOP: An Online, Open-Access, Organic Chemistry Teaching Resource To Integrate Sustainability Concepts in the Laboratory Johannes Ranke, Müfit Bahadir, Marco Eissen, and Burkhard König
Describes a project that identifies parameters for sustainable practices in organic chemistry laboratories, including the atom economy and energy efficiency of chemical transformations, questions of waste and renewable feedstocks, toxicity and ecotoxicity, and safety measures.
Ranke, Johannes; Bahadir, Müfit; Eissen, Marco; König, Burkhard. J. Chem. Educ. 2008, 85, 1000.

Green Chemistry |

Synthesis |

Toxicology

Determination of the Formula of a Hydrate: A Greener Alternative Marc A. Klingshirn, Allison F. Wyatt, Robert M. Hanson, and Gary O. Spessard
This article describes how the principles of green chemistry were applied to a first-semester, general chemistry courses, specifically in relation to the determination of the formula of a copper hydrate salt that changes color when dehydrated and is easily rehydrated with steam.
Klingshirn, Marc A.; Wyatt, Allison F.; Hanson, Robert M.; Spessard, Gary O. J. Chem. Educ. 2008, 85, 819.

Gravimetric Analysis |

Green Chemistry |

Solids |

Stoichiometry

Connecting Solubility, Equilibrium, and Periodicity in a Green, Inquiry Experiment for the General Chemistry Laboratory Kristen L. Cacciatore, Jose Amado, Jason J. Evans, and Hannah Sevian
Presents a novel first-year chemistry experiment that asks students to replicate procedures described in sample lab reports that lack essential information. This structure is designed to promote students' experimental design and data analysis skills as well as their understanding of the importance and essential qualities of written and verbal communication between scientists.
Cacciatore, Kristen L.; Amado, Jose; Evans, Jason J.; Sevian, Hannah. J. Chem. Educ. 2008, 85, 251.

Equilibrium |

Green Chemistry |

Periodicity / Periodic Table |

Solutions / Solvents |

Stoichiometry |

Titration / Volumetric Analysis

A Simplified Model To Predict the Effect of Increasing Atmospheric CO₂ on Carbonate Chemistry in the Ocean Brian J. Bozlee, Maria Janebo, and Ginger Jahn
The chemistry of dissolved inorganic carbon in seawater is reviewed and used to predict the potential effect of rising levels of carbon dioxide in the atmosphere. It is found that calcium carbonate may become unsaturated in cold surface seawater by the year 2100, resulting in the destruction of calcifying organisms such as coral.
Bozlee, Brian J.; Janebo, Maria; Jahn, Ginger. J. Chem. Educ. 2008, 85, 213.

Applications of Chemistry |

Aqueous Solution Chemistry |

Atmospheric Chemistry |

Equilibrium |

Green Chemistry |

Water / Water Chemistry

Experimental Determination of Ultraviolet Radiation Protection of Common Materials Susana C. A. Tavares, Joaquim C. G. Esteves de Silva, and João Paiva
The oxidation of iodide is used as an indicator for the degree of exposure to UV radiation and to investigate the protection given by a simulation of ozone using plexiglass plates, sunscreen lotions, cotton cloth with different colors, and aqueous solutions with different concentrations of natural organic matter.
Tavares, Susana C. A.; Esteves de Silva, Joaquim C. G.; Paiva, João. J. Chem. Educ. 2007, 84, 1963.

Atmospheric Chemistry |

Consumer Chemistry |

UV-Vis Spectroscopy

"Holes" in Student Understanding: Addressing Prevalent Misconceptions Regarding Atmospheric Environmental Chemistry Sara C. Kerr and Kenneth A. Walz
This study evaluated the misconception that global warming is caused by holes in the ozone layer, other ideas surrounding atmospheric chemistry that are responsible for the entanglement of the greenhouse effect and ozone depletion in students' conceptual frameworks, and the effectiveness of computer-based online data-analysis exercises to address these shortcomings.
Kerr, Sara C.; Walz, Kenneth A. J. Chem. Educ. 2007, 84, 1693.

Atmospheric Chemistry |

Student-Centered Learning

Geographical Information Systems (GIS) Mapping of Environmental Samples across College Campuses Kathleen L. Purvis-Roberts, Harriet P. Moeur, and Andrew Zanella
In this laboratory experiment, students take environmental samples (concentrations of nitrogen dioxide) and geospatial coordinates with a global position systems unit at various locations around campus, map their data on a geo-referenced map with geographical information systems software, and compare their results to those observed by governmental agencies.
Purvis-Roberts, Kathleen L.; Moeur, Harriet P.; Zanella, Andrew. J. Chem. Educ. 2007, 84, 1691.

Applications of Chemistry |

Atmospheric Chemistry |

Gases |

Laboratory Computing / Interfacing |

UV-Vis Spectroscopy

A Simple Calorimetric Experiment That Highlights Aspects of Global Heat Retention and Global Warming Joel D. Burley and Harold S. Johnston
In this laboratory experiment, general chemistry students verify that heat is consumed in the melting of ice, with no increase in temperature until all the ice has melted. The fundamental calorimetric principles demonstrated by the lab results are then developed to help students better assess and understand the experimental evidence associated with global warming.
Burley, Joel D.; Johnston, Harold S. J. Chem. Educ. 2007, 84, 1686.

Atmospheric Chemistry |

Calorimetry / Thermochemistry

Lewis Structure Representation of Free Radicals Similar to ClO Warren Hirsch and Mark Kobrak
An unconventional Lewis structure is proposed to explain the properties of the free radical ClO and a series of its isoelectronic analogues, particularly trends in the spin density of these species.
Hirsch, Warren; Kobrak, Mark. J. Chem. Educ. 2007, 84, 1360.

Atmospheric Chemistry |

Computational Chemistry |

Covalent Bonding |

Free Radicals |

Lewis Structures |

Molecular Modeling |

MO Theory |

Valence Bond Theory

Guitar Strings as Standing Waves: A Demonstration Michael Davis
This demonstration uses an acoustic guitar to produce three unique harmonic vibrations, each of which is representative of a standing wave and illustrates the concept of quantization.
Davis, Michael. J. Chem. Educ. 2007, 84, 1287.

Atmospheric Chemistry |

Atomic Properties / Structure |

Atomic Spectroscopy

Puzzling through General Chemistry: A Light-Hearted Approach to Engaging Students with Chemistry Content Susan L. Boyd
Presents ten puzzles to make chemistry more interesting while reinforcing important concepts.
Boyd, Susan L. J. Chem. Educ. 2007, 84, 619.

Aqueous Solution Chemistry |

Atmospheric Chemistry |

Calorimetry / Thermochemistry |

Gases |

Molecular Properties / Structure |

Periodicity / Periodic Table |

Stoichiometry |

VSEPR Theory |

Atomic Properties / Structure

Response to "Keeping Our Cool" Roy W. Clark
General chemistry teachers should teach general chemistry. They should teach neither the appreciation of the wonders of modern science, nor should they teach the evil consequences of modern science.
Clark, Roy W. J. Chem. Educ. 2007, 84, 232.

Atmospheric Chemistry

Completing Our Education. Green Chemistry in the Curriculum Birgit Braun, Reagan Charney, Andres Clarens, Jennifer Farrugia, Christopher Kitchens, Carmen Lisowski, David Naistat, and Adam O'Neil
Identifies areas of green chemistry that are often neglected, describes the value of integrating green chemistry principles in today's curricula, and and suggests strategies educators might use to incorporate green chemistry in their classrooms.
Braun, Birgit; Charney, Reagan; Clarens, Andres; Farrugia, Jennifer; Kitchens, Christopher; Lisowski, Carmen; Naistat, David; O'Neil, Adam. J. Chem. Educ. 2006, 83, 1126.

Green Chemistry

Faculty Responsibilities John W. Moore
It is important that students recognize the objectives of green chemistry, its ways of analyzing environmental impacts and sustainability, and how those objectives and methods can lead to creativity in solving scientific and technical problems. These can be applied to existing content and merely require a different approach to many things we already teach.
Moore, John W. J. Chem. Educ. 2006, 83, 1111.

Administrative Issues |

Professional Development |

Green Chemistry

Enantioselective Reduction by Crude Plant Parts: Reduction of Benzofuran-2-yl Methyl Ketone with Carrot (Daucus carota) Bits Silvana Ravía, Daniela Gamenara, Valeria Schapiro, Ana Bellomo, Jorge Adum, Gustavo Seoane, and David Gonzalez
Presents the enantioselective reduction of a ketone by crude plant parts, using carrot (Daucus carota) as the reducing agent.
Ravía, Silvana; Gamenara, Daniela; Schapiro, Valeria; Bellomo, Ana; Adum, Jorge; Seoane, Gustavo; Gonzalez, David. J. Chem. Educ. 2006, 83, 1049.

Aldehydes / Ketones |

Biotechnology |

Catalysis |

Chromatography |

Green Chemistry |

Oxidation / Reduction |

Stereochemistry |

Separation Science

Teaching Lab Report Writing through Inquiry: A Green Chemistry Stoichiometry Experiment for General Chemistry Kristen L. Cacciatore and Hannah Sevian
Presents an experiment with four key features: students utilize stoichiometry, learn and apply principles of green chemistry, engage in authentic scientific inquiry, and discover why each part of a scientific lab report is necessary.
Cacciatore, Kristen L.; Sevian, Hannah. J. Chem. Educ. 2006, 83, 1039.

Quantitative Analysis |

Green Chemistry |

Gravimetric Analysis |

Stoichiometry

What Is Your Mental Picture of Ordinary Air? Richard W. Ramette and Dale K. Haworth
Students differ widely in their conceptions about the nature of air.
Ramette, Richard W.; Haworth, Dale K. J. Chem. Educ. 2006, 83, 834.

Atmospheric Chemistry |

Gases

Microwave-Assisted Heterocyclic Chemistry for Undergraduate Organic Laboratory Robert Musiol, Bozena Tyman-Szram, and Jaroslaw Polanski
Microwave-assisted techniques are used to design new environmentally benign syntheses of heterocycles for the undergraduate organic laboratory.
Musiol, Robert; Tyman-Szram, Bozena; Polanski, Jaroslaw. J. Chem. Educ. 2006, 83, 632.

Green Chemistry |

Heterocycles |

Reactions |

Synthesis

Moving Chemistry Education into 3D: A Tetrahedral Metaphor for Understanding Chemistry. Union Carbide Award for Chemical Education Peter Mahaffy
Proposes a new conceptual metaphor to enrich our description of chemistry education and support the many existing efforts to help students make connections with the chemistry found in textbooks.
Mahaffy, Peter. J. Chem. Educ. 2006, 83, 49.

Applications of Chemistry |

Atmospheric Chemistry |

Learning Theories |

Nonmajor Courses |

Student-Centered Learning

Steel Wool and Oxygen: A Look at Kinetics James Gordon and Katherine Chancey
An experimental method is described to study the kinetics of the reaction of the iron in steel wool with molecular oxygen. A calculator-based data collection system is used with an oxygen gas sensor to determine the order of the reaction with respect to oxygen. Using the graphical method, students determine that the reaction follows first-order kinetics with respect to oxygen.
Gordon, James; Chancey, Katherine. J. Chem. Educ. 2005, 82, 1065.

Atmospheric Chemistry |

Gases |

Kinetics |

Oxidation / Reduction

Going Green: Lecture Assignments and Lab Experiences for the College Curriculum Julie A. Haack, James E. Hutchison, Mary M. Kirchhoff, and Irvin J. Levy
This paper provides an overview of green chemistry, including ways to incorporate green chemistry principles in existing courses and laboratories. Green chemistry experiments previously published in this Journal are listed.
Haack, Julie A.; Hutchison, James E.; Kirchhoff, Mary M.; Levy, Irvin J. J. Chem. Educ. 2005, 82, 974.

Green Chemistry

Greenhouse Gases and Non-gray Behavior J. C. Jones
Greenhouse gases feature in many courses in applied chemistry as well as in courses on environmental science, atmospheric chemistry, and so on. We hear a great deal about such matters from the media. A more classical topic which first-year chemistry students will learn about in the physical chemistry component of their program is the black body concept and the StefanBoltzmann law. Recently in teaching about greenhouse gases to MSc students I have thought of a link between the topical and classical matters that is pedagogically interesting and might be of value to others teaching in this subject area.
Jones, J. C. J. Chem. Educ. 2005, 82, 837.

Atmospheric Chemistry |

Gases

The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor James Gordon and Katherine Chancey
A new detection method is applied to a classic experiment in which gaseous atmospheric oxygen in a test tube is reacted with the iron in steel wool to produce rust. A gas pressure sensor interfaced to a calculator-based data collection system was used to measure the percent of oxygen in the air as the reaction proceeded. The results from the calculator-based experiment were compared to the results from a more traditional water-measurement experiment. The average percent of oxygen obtained using the calculator system was 19.4 0.4%.
Gordon, James; Chancey, Katherine. J. Chem. Educ. 2005, 82, 286.

Atmospheric Chemistry |

Gases |

Oxidation / Reduction |

Reactions

Fractional Distillation of Air and Other Demonstrations with Condensed Gases Maria Oliver-Hoyo and William L. Switzer, III
This demonstration builds upon the commonly performed liquefaction of air not only to show the presence of nitrogen and oxygen, but also the presence of two other components, carbon dioxide and water. Several extensions are suggested: one to show boiling point elevation in solution and another to show the elevation of both boiling point and sublimation point with pressure. No special apparatus is required permitting presentations to audiences in a variety of settings. These demonstrations give the opportunity to discuss properties of gases, solution chemistry, and phase equilibria.
Oliver-Hoyo, Maria; Switzer, William L., III. J. Chem. Educ. 2005, 82, 251.

Gases |

Qualitative Analysis |

Atmospheric Chemistry |

Phases / Phase Transitions / Diagrams |

Separation Science

On the Buoyancy of a Helium-Filled Balloon John E. Harriman
It is shown by expansion of the exponential in the barometric formula that the forces due to pressure acting on a balloon are of the form (PV/RT)Mg and that results agree with those suggested by Archimedes principle. Einstein's equivalence principal provides an answer to what balloons will do in an accelerated car.
Harriman, John E. J. Chem. Educ. 2005, 82, 246.

Atmospheric Chemistry |

Gases |

Kinetic-Molecular Theory |

Physical Properties

A Substitute for “Bromine in Carbon Tetrachloride” Joshua M. Daley and Robert G. Landolt
Benzotrifluoride (BTF) is a suitable solvent substitute for carbon tetrachloride in experiments requiring application of bromine (Br2) in free radical or addition reactions with organic substrates. A 1 M solution of Br2 in BTF may be used to distinguish hydrocarbons based on the ease of abstraction of hydrogen atoms in thermally or light-induced free radical substitutions. Efficacy of minimization of solvent use, by aliquot addition to neat samples, has been established.
Daley, Joshua M.; Landolt, Robert G. J. Chem. Educ. 2005, 82, 120.

Alkenes |

Free Radicals |

Green Chemistry |

Qualitative Analysis |

Reactions

A Greener Approach for Measuring Colligative Properties Sean M. McCarthy and Scott W. Gordon-Wylie
As a first step towards the greening of instructional laboratories, we present a new greener version of a laboratory procedure designed to measure colligative properties. The greener procedure substitutes the nontoxic, noncarcinogenic compounds stearic, myristic, lauric, and palmitic acids for the less benign aromatic compounds p-dichlorobenzene, benzil, biphenyl, naphthalene, and nitrotoluene. Achieving educational goals without the concomitant generation of chlorinated and aromatic wastes is shown here to be both possible and practical.
McCarthy, Sean M.; Gordon-Wylie, Scott W. J. Chem. Educ. 2005, 82, 116.

Green Chemistry |

Solutions / Solvents |

Fatty Acids

Water in the Atmosphere Joel M. Kauffman
None of eight college-level general chemistry texts gave a mean value for water in the atmosphere, despite its being the third most prevalent constituent at about 1.5% by mass as vapor and about 2% if clouds and ice crystals are included. The importance of water as a greenhouse gas was omitted or marginalized by five of the eight texts. An infrared spectrum of humid air was determined to demonstrate that water vapor, because of its higher concentration, was more absorptive than carbon dioxide. The cooling effect of clouds, or other influences on the Earth's albedo, were not mentioned in most of the texts. These pervasive errors should be corrected in new or future editions of textbooks.
Kauffman, Joel M. J. Chem. Educ. 2004, 81, 1229.

Atmospheric Chemistry |

Gases |

Green Chemistry |

IR Spectroscopy

Mass Spectrometry for the Masses Jared D. Persinger, Geoffrey C. Hoops, and Michael J. Samide
In this article, we describe an experiment for an introductory chemistry course that incorporates the use of mass spectrometry for sample analysis. Several different air samples are collected that represent various chemical processes, and the composition of the air sample is predicted on the basis of known chemical principles. A gas chromatograph-mass spectrometer is used to analyze these samples, and the relative quantities of nitrogen, oxygen, carbon dioxide, water, and argon are calculated. On the basis of the data, the hypothesized sample composition is validated.
Persinger, Jared D.; Hoops, Geoffrey C.; Samide, Michael J. J. Chem. Educ. 2004, 81, 1169.

Mass Spectrometry |

Atmospheric Chemistry |

Green Chemistry |

Nonmajor Courses |

Oxidation / Reduction |

Photosynthesis |

Gases

Magnetic Particle Technology. A Simple Preparation of Magnetic Composites for the Adsorption of Water Contaminants Luiz C. A. Oliveira, Rachel V. R. A. Rios, José D. Fabris, Rochel M. Lago, and Karim Sapag
In this article a simple undergraduate laboratory experiment to produce magnetic adsorbents is described. These magnetic materials efficiently adsorb contaminants from water and can be easily removed from the medium by a simple magnetic separation process.
Oliveira, Luiz C.A.; Rios, Rachel V.R.A.; Fabris, José D.; Lago, Rochel M.; Sapag, Karim. J. Chem. Educ. 2004, 81, 248.

Green Chemistry |

Magnetic Properties |

Materials Science |

Separation Science |

Water / Water Chemistry

News from Online: Green Chemistry Erich S. Uffelman
An introductory, non-exhaustive set of online resources is presented to provide readers with an entry into the area of green chemistry.
Uffelman, Erich S. J. Chem. Educ. 2004, 81, 172.

Green Chemistry

Why Does a Helium-Filled Balloon "Rise"? Richard W. Ramette
The article is a lighthearted, conversational exploration of the microscopic basis for Archimedes principle. The principle is discussed in terms of molecular collisions and density gradients in a gravitational field.
Ramette, Richard W. J. Chem. Educ. 2003, 80, 1149.

Atmospheric Chemistry |

Gases |

Kinetic-Molecular Theory |

Physical Properties

National Chemistry Week 2003: Earth's Atmosphere and Beyond. JCE Resources for Chemistry and the Atmosphere Erica K. Jacobsen
This annotated bibliography collects the best that past issues of the Journal of Chemical Education have to offer for use with this year's National Chemistry Week theme: Earth's Atmosphere and Beyond. Each article has been characterized as a demonstration, experiment, activity, informational, or software/video item.
Jacobsen, Erica K. J. Chem. Educ. 2003, 80, 1106.

Atmospheric Chemistry |

Applications of Chemistry

Introduction to Green Chemistry (Mary Ann Ryan and Michael Tinnesand) Wheeler Conover
Introduction to the principles of green chemistry emphasizing waste reduction; includes laboratory activities.
Conover, Wheeler. J. Chem. Educ. 2003, 80, 268.

Green Chemistry |

Consumer Chemistry |

Applications of Chemistry

Micelle-Mediated Extraction of Heavy Metals from Environmental Samples: An Environmental Green Chemistry Laboratory Experiment Dimosthenis L. Giokas, Evangelos K. Paleologos, and Miltiades I. Karayannis
A laboratory focussing on the determination of metallic elements in drinking water through cloud-point extraction.
Giokas, Dimosthenis L.; Paleologos, Evangelos K.; Karayannis, Miltiades I. J. Chem. Educ. 2003, 80, 61.

Atomic Spectroscopy |

Metals |

Micelles |

Separation Science |

Green Chemistry |

Qualitative Analysis |

Quantitative Analysis

A Demonstration of Acid Rain and Lake Acidification: Wet Deposition of Sulfur Dioxide Lisa M. Goss
Demonstration of the wet deposition of sulfur dioxide in the atmosphere.
Goss, Lisa M. J. Chem. Educ. 2003, 80, 39.

Acids / Bases |

Atmospheric Chemistry

Effects of Changing Climate on Weather and Human Activities (by Kevin E. Trenberth, Kathleen Miller, Linda Mearns, and Steven Rhodes) Evan T. Williams
A short supplement focussed on the effects of changing climate on weather and human activities.
Williams, Evan T. J. Chem. Educ. 2002, 79, 433.

Atmospheric Chemistry |

Nonmajor Courses |

Applications of Chemistry

Stratospheric Ozone Depletion (by Ann M. Middlebrook and Margaret A. Tolbert) Evan T. Williams
A short supplement focussed on stratospheric ozone depletion.
Williams, Evan T. J. Chem. Educ. 2002, 79, 433.

Atmospheric Chemistry |

Nonmajor Courses |

Applications of Chemistry

Naturally Dangerous: Surprising Facts about Food, Health, and the Environment (by James P. Collman) Harold H. Harris
Chemist's perspective on the topics of food, vitamins and minerals, herbal remedies, cancer and the environment, global warming, acid rain, ozone, and radiation.
Harris, Harold H. J. Chem. Educ. 2002, 79, 35.

Nonmajor Courses |

Consumer Chemistry |

Food Science |

Atmospheric Chemistry |

Nuclear / Radiochemistry |

Vitamins |

Applications of Chemistry

Identifying Deficiencies in the Environmental Chemistry Educational Literature Thi Hoa Tran, Stephen W. Bigger, Tony Kruger, John D. Orbell, Saman Buddhadasa, and Sebastian Barone
Study of chemistry textbooks and literature for materials relating to environmental chemistry, including water, air , and soil; and degree of integration of four traditional areas of chemistry (analytical, physical, inorganic, and organic) into environmental chemistry laboratory experiments.
Tran, Thi Hoa; Bigger, Stephen W.; Kruger, Tony; Orbell, John D.; Buddhadasa, Saman; Barone, Sebastian. J. Chem. Educ. 2001, 78, 1693.

Agricultural Chemistry |

Learning Theories |

Atmospheric Chemistry

Cigarette Smoke Analysis Using an Inexpensive Gas-Phase IR Cell N. Garizi, A. Macias, T. Furch, R. Fan, P. Wagenknecht, and K. A. Singmaster
A PVC gas cell used to collect and analyze cigarette smoke and car exhaust through IR spectroscopy.
Garizi, N.; Macias, A.; Furch, T.; Fan, R.; Wagenknecht, P.; Singmaster, K. A. J. Chem. Educ. 2001, 78, 1665.

Atmospheric Chemistry |

IR Spectroscopy |

Fourier Transform Techniques |

Laboratory Equipment / Apparatus |

Qualitative Analysis

A Novel Experiment for Fast and Simple Determination of the Oxygen Content in the Air Metodija Najdoski and Vladimir M. Petrusevski
The reaction between nitric oxide (NO) and oxygen is used for determination of the oxygen content in the air. The nitrogen dioxide thus produced is dissolved in water. The volume decrease of the gas enables quick and accurate enough determination of the O2 content. The results of 20 measurements give %O2 = 21.04 0.63.
Najdoski, Metodija; Petrusevski, Vladimir M. J. Chem. Educ. 2000, 77, 1447.

Gases |

Qualitative Analysis |

Quantitative Analysis |

Atmospheric Chemistry

Determination of the Oxygen Content of Air Per Christian Braathen
Determining the oxygen content of air using vinegar and steel wool.
Braathen, Per Christian. J. Chem. Educ. 2000, 77, 1410.

Atmospheric Chemistry |

Gases |

Quantitative Analysis

Microscale Chemistry and Green Chemistry: Complementary Pedagogies Mono M. Singh, Zvi Szafran, and R. M. Pike
Green chemistry emphasizes the concepts of atom economy, source reduction, pathway modification, solvent substitution, and pollution prevention as means of improving the environmental impact of industrial chemistry. Microscale chemistry serves as a tool for incorporating green chemistry ideas across the curriculum in educational institutions. Examples are drawn from microscale laboratory experiments to illustrate the pedagogic connection between the two areas.
Singh, Mono M.; Szafran, Zvi; Pike, Ronald M. J. Chem. Educ. 1999, 76, 1684.

Microscale Lab |

Learning Theories |

Green Chemistry |

Laboratory Management

Bringing State-of-the-Art, Applied, Novel, Green Chemistry to the Classroom by Employing the Presidential Green Chemistry Challenge Awards Michael C. Cann
In our environmental chemistry course at the University of Scranton, students select one of the winning entries from the most recent PGCC Awards competition and present a poster on the entry. This exercise exposes these students to state-of-the-art, applied, novel, green chemistry that they would be unlikely to encounter in any other course.
Cann, Michael C. J. Chem. Educ. 1999, 76, 1639.

Learning Theories |

Green Chemistry

Relative Humidity R. Bruce Martin
Daily we hear reports of relative humidity, yet most students remain unfamiliar with its import. This short article defines and describes the concept at several levels. A new, general interest, isobaric plot directly indicates the dependence of relative humidity on temperature.
Martin, R. Bruce. J. Chem. Educ. 1999, 76, 1081.

Consumer Chemistry |

Gases |

Nonmajor Courses |

Water / Water Chemistry |

Atmospheric Chemistry

The Persistence of the Candle-and-Cylinder Misconception James P. Birk and Anton E. Lawson
There is a persistent misconception that when a lighted candle is supported in a container of water and a closed cylinder is lowered over the candle, the candle is extinguished after a time by complete consumption of the oxygen in the cylinder, with a volume change corresponding to the amount of oxygen in the air. This misconception has appeared in the literature periodically for many years. Here, we present a number of experiments that refute this misconception.
Birk, James P.; Lawson, Anton E. J. Chem. Educ. 1999, 76, 914.

Gases |

Atmospheric Chemistry |

Quantitative Analysis |

Reactions

Determination of Percent Oxygen in Air (author's reply) Fang, Chin-Hsiang
Claim that a simple combustion reaction can be used to show the % oxygen in air.
Fang, Chin-Hsiang J. Chem. Educ. 1999, 76, 898.

Atmospheric Chemistry

Determination of Percent Oxygen in Air Parsons, Leonard
Claim that a simple combustion reaction cannot be used to show the % oxygen in air.
Parsons, Leonard J. Chem. Educ. 1999, 76, 898.

Atmospheric Chemistry

Correction to The Bobbing Bird: Correction to J. Chem. Educ. 1996, 73, 355 H. D. Gesser
Difficulties in improving safety of original demonstration.
Gesser, Hyman D. J. Chem. Educ. 1999, 76, 757.

Atmospheric Chemistry

Advertising in this Issue
Caution when burning hydrogen / oxygen mixtures.
J. Chem. Educ. 1999, 76, 757.

Atmospheric Chemistry

Thermal Physics (and Some Chemistry) of the Atmosphere Stephen K. Lower
An exploration of how the temperature of the atmosphere varies with altitude can serve as a useful means of illustrating some important principles relating to the behavior of gases and to the absorption and transformation of radiant energy.
Lower, Stephen K. J. Chem. Educ. 1998, 75, 837.

Atmospheric Chemistry |

Gases

Saving Your Students' Skin. Undergraduate Experiments that Probe UV Protection by Sunscreens and Sunglasses James R. Abney and Bethe A. Scalettar
This article describes absorption spectroscopy experiments that illustrate the mechanism of action of sunscreens and sunglasses and that highlight the differences between different products. The experiments are well suited to incorporation into an undergraduate science laboratory and will expose students to absorption phenomena in a familiar context with substantial environmental and medical relevance.
Abney, James R.; Scalettar, Bethe A. J. Chem. Educ. 1998, 75, 757.

Photochemistry |

UV-Vis Spectroscopy |

Atmospheric Chemistry |

Applications of Chemistry |

Spectroscopy

Photocatalytic Degradation of a Gaseous Organic Pollutant Jimmy C. Yu and Linda Y. L. Chan
A simple and effective method to demonstrate the phenomenon of photocatalytic degradation of a gaseous organic pollutant was developed. Titanium dioxide (anatase) was used as the photocatalyst, and sunlight was found to be an effective light source for the activation of TiO2. The organic pollutant degrade in this demonstration was a common indoor air pollutant, dichloromethane.
Yu, Jimmy C.; Chan, Linda Y. L. J. Chem. Educ. 1998, 75, 750.

Catalysis |

Photochemistry |

Atmospheric Chemistry |

Applications of Chemistry

Chemical Behavior Paul G. Jasien
In order to increase student understanding of the seemingly confusing behavior of chemical substances involved in environmental chemistry, an analogy between chemical and human behavior is presented. The analogy focuses on how the same individual can behave differently due to his/her social surroundings.
Jasien, Paul G. J. Chem. Educ. 1997, 74, 943.

Molecular Properties / Structure |

Nonmajor Courses |

Consumer Chemistry |

Atmospheric Chemistry

A Simple and Low-Cost Air Sampler Sashi Saxena Ratna and Pramrod Upadhyay
In this article, an air sampler kit is presented that can be assembled from locally available household materials. The reliability of the sampler kit is also established.
Ratna, Shashi Saxena; Upadhyay, Pramod. J. Chem. Educ. 1996, 73, 787.

Atmospheric Chemistry |

Laboratory Equipment / Apparatus |

Quantitative Analysis

The Environmental Chemistry of Trace Atmospheric Gases William C. Trogler
Information regarding the composition of trace gases in the Earth's atmosphere, changes in these amounts, their sources, and potential future impact on the environment.
Trogler, William C. J. Chem. Educ. 1995, 72, 973.

Gases |

Atmospheric Chemistry

Introducing Green Chemistry in Teaching and Research Terrence J. Collins
Efforts to integrate environmental considerations into the undergraduate chemistry curriculum and description of a course entitled "Introduction to Green Chemistry".
Collins, Terrence J. J. Chem. Educ. 1995, 72, 965.

Green Chemistry

Introducing Atmospheric Reactions: A Systematic Approach for Students Baird, N. Colin
Outline of the dominant reactions that occur in air, particularly with regard to atmospheric pollutants.
Baird, N. Colin J. Chem. Educ. 1995, 72, 153.

Photochemistry |

Free Radicals |

Atmospheric Chemistry

Inventory Control: Sampling and Analyzing Air Pollution: An Apparatus Suitable for Use in Schools Rockwell, Dean M.; Hansen, Tony
Two variations of an air sampler and analyzer that are inexpensive, easy to construct, and highly accurate.
Rockwell, Dean M.; Hansen, Tony J. Chem. Educ. 1994, 71, 318.

Atmospheric Chemistry |

Laboratory Equipment / Apparatus |

Quantitative Analysis

A small-scale, easy-to-run wastewater-treatment plant: The treatment of an industrial water that contains suspended clays and soluble salts Alvaro, Mercedes; Espla, Mercedes; Llinares, Jesus; Martinez-Manez, Ramon; Soto, Juan
Chemistry students are often interested in the chemical principles involved in industrial processes, the pollutants and waste products are generated, and their removal. This experiment introduces students to several theoretical concepts as they apply to real physical and chemical waste-treatment processes.
Alvaro, Mercedes; Espla, Mercedes; Llinares, Jesus; Martinez-Manez, Ramon; Soto, Juan J. Chem. Educ. 1993, 70, A129.

Water / Water Chemistry |

Green Chemistry |

Industrial Chemistry |

Colloids |

Separation Science

Consequences of a chemical world: An innovative approach to teaching environmental chemistry Busch, Kenneth L.; Hughes, Kenneth D.
A course that helps counteract chemophobia.
Busch, Kenneth L.; Hughes, Kenneth D. J. Chem. Educ. 1993, 70, 1016.

Green Chemistry

A new use for the candle and tumbler myth Peckham, Gavin D.
In the time it takes to complete the popular but lengthy steel-wool experiment, this author proposes an activity that can be done to add an extra dimension to analyzing oxygen content. This combination of "good" and "bad" experiments proves to be a powerful pedagogical tool.
Peckham, Gavin D. J. Chem. Educ. 1993, 70, 1008.

Quantitative Analysis |

Atmospheric Chemistry |

Oxidation / Reduction

Highlights: Ventures in freshman chemistry Farrar, James M.; Eisenberg, Richard; Kampmeier, J. A.
A rigorous freshman chemistry course that prepares students for further study in chemistry and natural sciences ties principles of chemistry to energy and environment.
Farrar, James M.; Eisenberg, Richard; Kampmeier, J. A. J. Chem. Educ. 1993, 70, 847.

Administrative Issues |

Green Chemistry |

Applications of Chemistry

Proper glove box etiquette Roper, Gerald C.
Author defends his activity to a critique raised in an earlier letter in this Journal.
Roper, Gerald C. J. Chem. Educ. 1993, 70, 520.

Gases |

Atmospheric Chemistry

Introducing the treatment of waste and wastewater in the general chemistry course: Applying physical and chemical principles to the problems of waste management Dhawale, S. W.
Students learn simple lab techniques so that they can discuss applications such as cleanup of small-scale oil spills and the processes used to obtain drinkable pure water.
Dhawale, S. W. J. Chem. Educ. 1993, 70, 395.

Water / Water Chemistry |

Green Chemistry |

Applications of Chemistry

Teaching risk assessment in undergraduate chemistry using BCTC Pharr, Daniel Y.
148. Bits and pieces, 49. The role of many scientists has become one of making policy decisions based on scientific data that is often incomplete and ambiguous. Having students go through the types of decisions that such scientists need to make by using the BCTC computer simulations can be a useful exercise to teach students how to research, collect, analyze, and interpret data.
Pharr, Daniel Y. J. Chem. Educ. 1993, 70, 294.

Green Chemistry

Interactive chemistry teaching units developed with the help of the local chemical industry: Applying classroom principles to the real needs of local companies to help students develop skill in teamwork, communications, and problem solving Pontin, J. A.; Arico, E.; Pitoscio Filho, J.; Tiedemann, P. W.; Isuyama, R.; Fettis, G. C.
As part of a process of effective curriculum innovation, the authors are developing a project to produce teaching materials for chemistry undergraduate courses with an emphasis on the concerns of the local chemical industry.
Pontin, J. A.; Arico, E.; Pitoscio Filho, J.; Tiedemann, P. W.; Isuyama, R.; Fettis, G. C. J. Chem. Educ. 1993, 70, 223.

Applications of Chemistry |

Green Chemistry |

Industrial Chemistry |

Student-Centered Learning

A Device to Collect Sediment Cores: And an Experiment for their Chemical Analysis Del Delumyea, R.; McCleary, Donna L.
The chemical and physical characterization of sediments in aquatic systems can be performed at the introductory chemistry level and the experience is appealing and informative for students. This paper describes a device used to gather samples.
Del Delumyea, R.; McCleary, Donna L. J. Chem. Educ. 1993, 70, 172.

Green Chemistry |

Laboratory Equipment / Apparatus

Environmental Chemistry in the Freshman Laboratory Kegley, Susan E.; Stacy, Angelica M.
Lab activities related to environmental issues provide students with evidence of relevant chemistry while allowing students to engage in true inquiry experiences and engage themselves with challenging problems.
Kegley, Susan E.; Stacy, Angelica M. J. Chem. Educ. 1993, 70, 151.

Green Chemistry |

Applications of Chemistry

Present and Future Nuclear Reactor Designs: Weighing the Advantages and Disadvantages of Nuclear Power with an Eye on Improving Safety and Meeting Future Needs Miller, Warren F., Jr.
An overview of how nuclear energy is produced on macroscopic and microscopic scales with consideration given to benefits and liabilities of this energy source. The article includes a short look at nuclear power uses overseas and contains information about waste disposal, public opinion, and potential technical improvements.
Miller, Warren F., Jr. J. Chem. Educ. 1993, 70, 109.

Nuclear / Radiochemistry |

Green Chemistry |

Consumer Chemistry |

Applications of Chemistry

The Erosion of Carbonate Stone by Acid Rain: Laboratory and Field Investigations Baedecker, Philip A.; Reddy, Michael M.
Describes a laboratory experiment on the effects of acidic deposition on carbonate stone erosion. The purpose is to answer questions concerning the effects of hydrogen ion deposition on stone erosion processes that are difficult to resolve in field experiments alone.
Baedecker, Philip A.; Reddy, Michael M. J. Chem. Educ. 1993, 70, 104.

Acids / Bases |

Green Chemistry

From Lead Solder to Kiwi Fruit: Reshaping Introductory Chemistry Labs with Investigative Team Projects Mahaffy, Peter G.; Newman, Kenneth E.; Bestman, Hank D.
This paper reports an attempt to introduce relevant curriculum and investigations carried out by student research groups into a first year chemistry course. A description and evaluation of a four-week, open ended research project is included.
Mahaffy, Peter G.; Newman, Kenneth E.; Bestman, Hank D. J. Chem. Educ. 1993, 70, 76.

Food Science |

Consumer Chemistry |

Laboratory Management |

Vitamins |

Green Chemistry |

Minorities in Chemistry

A Simple Demonstration of the Greenhouse Effect Adelhelm, Manfred; Hohn, Ernst-Gerhard
A simple experiment to demonstrate the principle of the greenhouse effect.
Adelhelm, Manfred; Hohn, Ernst-Gerhard J. Chem. Educ. 1993, 70, 73.

Photochemistry |

Green Chemistry

Gas reactions in plastic bags: Relating laboratory observations to the atomic-molecular model Robinson, Maurice; Barrow, Gordon M.
Carrying out chemical reactions in Ziplock bags to investigate a variety of chemical concepts.
Robinson, Maurice; Barrow, Gordon M. J. Chem. Educ. 1992, 69, 1026.

Kinetic-Molecular Theory |

Gases |

Reactions |

Acids / Bases |

Oxidation / Reduction |

Photochemistry |

Atmospheric Chemistry |

Physical Properties

A bulletin board demonstration on humidity Smith, Kurt; Solomon, Sally
A demonstration of the color changes of cobalt chloride with relative humidity is described in this note.
Smith, Kurt; Solomon, Sally J. Chem. Educ. 1991, 68, 1039.

Atmospheric Chemistry |

Equilibrium

Acid rain investigations Epp, Dianne N.; Curtright, Robert
A series of reactions that can be carried out to demonstrate the effects of acid rain.
Epp, Dianne N.; Curtright, Robert J. Chem. Educ. 1991, 68, 1034.

Acids / Bases |

Green Chemistry

Science and the environment: College undergraduates outreach to secondary schools Carlson, Nathan; Strickland, Tamara; Shen, Albert; Zoller, William H.
An outreach program that generates concern and interest early in students' careers so that by the time they enter universities, they will have a clear picture of science as a rewarding career.
Carlson, Nathan; Strickland, Tamara; Shen, Albert; Zoller, William H. J. Chem. Educ. 1991, 68, 1021.

Green Chemistry

Demonstration properties of sulfur dioxide Brouwer, H.
Demonstrations of properties of sulfur dioxide are timely, given current debates between Canada and the United States regarding acid rain.
Brouwer, H. J. Chem. Educ. 1991, 68, 417.

Acids / Bases |

Green Chemistry |

Method for separating or identifying plastics Kolb, Kenneth E.; Kolb, Doris K.
This article suggests the use of differences in density as a means for separation and identification of plastics.
Kolb, Kenneth E.; Kolb, Doris K. J. Chem. Educ. 1991, 68, 348.

Consumer Chemistry |

Green Chemistry |

Physical Properties

Chloride in natural waters: An environmental application of a potentiometric titration Lisensky, George; Reynolds, Kelly.
An environmental application of a potentiometric titration to determine chloride found in fresh water.
Lisensky, George; Reynolds, Kelly. J. Chem. Educ. 1991, 68, 334.

Potentiometry |

Titration / Volumetric Analysis |

Green Chemistry |

Geochemistry |

Quantitative Analysis

Acid rain experiment and construction of a simple turbidity meter Betterton, Eric A.
Construction of a simple turbidity meter in order to furnish more atmospheric chemistry experiments in the freshman and sophomore level chemistry lab.
Betterton, Eric A. J. Chem. Educ. 1991, 68, 254.

Atmospheric Chemistry |

Laboratory Equipment / Apparatus |

Green Chemistry

Lessons learned from Lord Rayleigh on the importance of data analysis Larsen, Russell D.
Analysis of the data collected by Lord Rayleigh in association with his discovery of argon presented as a model for scientific inquiry.
Larsen, Russell D. J. Chem. Educ. 1990, 67, 925.

Chemometrics |

Atmospheric Chemistry

Recycling lead(II) halides from solubility experiments Scaife, Charles W.; Hall, Chadlee D.
Procedure for recycling lead(II) chloride.
Scaife, Charles W.; Hall, Chadlee D. J. Chem. Educ. 1990, 67, 605.

Green Chemistry |

Precipitation / Solubility

What chemistry do our students need to learn? Hawkes, Stephen J.
Suggested topics of importance to chemistry nonmajors.
Hawkes, Stephen J. J. Chem. Educ. 1989, 66, 831.

Nonmajor Courses |

Oxidation / Reduction |

Geochemistry |

Atmospheric Chemistry |

Brønsted-Lowry Acids / Bases

The absorption of UV light by ozone Koubek, Edward
Using a low-pressure mercury vapor UV lamp and a recently laundered white cotton sheet as a background, one can produce a shadowgraph of ozone emerging from an ozonator.
Koubek, Edward J. Chem. Educ. 1989, 66, 338.

Atmospheric Chemistry

Nuclear waste glass, and the Fe2+/Fe3+ ratio Fanning, James C.; Hunter, R. Todd
These authors present a chemical problem of current interest that can be used for pedagogical purposes.
Fanning, James C.; Hunter, R. Todd J. Chem. Educ. 1988, 65, 888.

Applications of Chemistry |

Consumer Chemistry |

Titration / Volumetric Analysis |

Oxidation State |

Nuclear / Radiochemistry |

Green Chemistry |

Chromatography |

Spectroscopy

The Australian Academy of Science School Chemistry Project: A new-generation secondary school chemistry course Bucat, R. B.; Cole, A. R. H.
The purpose of this paper is to summarize the philosophies behind the courses described in this paper and the consequent design decisions regarding the selection and sequence of the chemistry content.
Bucat, R. B.; Cole, A. R. H. J. Chem. Educ. 1988, 65, 777.

Atmospheric Chemistry |

Metabolism |

Thermodynamics

Let environmental chemistry enrich your curriculum Parravano, Carlo
The rationale and detailed plans for a college level course in environmental chemistry.
Parravano, Carlo J. Chem. Educ. 1988, 65, 235.

Green Chemistry |

Applications of Chemistry

A method for teaching science, technology, and societal issues in introductory high school and college chemistry classes Streitberger, H. Eric
Most textbooks provide few, if any, systematic procedures for involving students with societal problems and issues in their lives related to chemistry. This is inconsistent with goals set in order to meet the growing need for students to be familiar with the science of (among other things) nutrition, environment, drugs, and more. This article gives a brief description of a project that acquaints students with these issues.
Streitberger, H. Eric J. Chem. Educ. 1988, 65, 60.

Consumer Chemistry |

Industrial Chemistry |

Green Chemistry |

Nuclear / Radiochemistry

Demonstrating the chemistry of air pollution Hollenberg, J. Leland; Stephens, Edgar R.; Pitts, James N., Jr.
Demonstrations regarding the three essential conditions or ingredients for the formation of photochemical smog and involving NO, NO2, unsaturated hydrocarbons, and O3.
Hollenberg, J. Leland; Stephens, Edgar R.; Pitts, James N., Jr. J. Chem. Educ. 1987, 64, 893.

Atmospheric Chemistry |

Photochemistry

Percent oxygen in air Martins, George F.
Determines the percentage oxygen in air by reacting steel wool with oxygen.
Martins, George F. J. Chem. Educ. 1987, 64, 809.

Atmospheric Chemistry

A convenient, low-cost method for determining sulfate in acid rain Johns, Nicholas; Longstaff, Stephen J.
Adapting the thoron colorimetric method for determining low sulfate concentrations quickly, simply, and accurately.
Johns, Nicholas; Longstaff, Stephen J. J. Chem. Educ. 1987, 64, 449.

Acids / Bases |

Atmospheric Chemistry |

Quantitative Analysis

Acid rain effects on stone monuments Charola, A. Elena
What is acid rain? Which stones are used to make mountains? How are the stones affected by acid rain?
Charola, A. Elena J. Chem. Educ. 1987, 64, 436.

Acids / Bases |

Applications of Chemistry |

Atmospheric Chemistry |

Geochemistry

The energy relationships of corn production and alcohol fermentation Van Koevering, Thomas E.; Morgan, Michael D.; Younk, Thomas J.
The production of alcohol from corn lends itself well to illustrating the practical applications of scientific principles that deal with energy transformations and inefficiencies.
Van Koevering, Thomas E.; Morgan, Michael D.; Younk, Thomas J. J. Chem. Educ. 1987, 64, 11.

Natural Products |

Applications of Chemistry |

Plant Chemistry |

Green Chemistry |

Alcohols |

Calorimetry / Thermochemistry |

Photosynthesis

Acid rain analysis by standard addition titration Ophardt, Charles E.
A simple standard addition titration method for determining the acidity of a rain or snow sample.
Ophardt, Charles E. J. Chem. Educ. 1985, 62, 257.

Titration / Volumetric Analysis |

Atmospheric Chemistry |

Acids / Bases |

Qualitative Analysis

Why isn't my rain as acidic as yours? Zajicek, O. T.
Calculating of pH values of acid rain and comparisons to uncontaminated samples.
Zajicek, O. T. J. Chem. Educ. 1985, 62, 158.

Acids / Bases |

Atmospheric Chemistry |

pH |

Chemometrics

The density and apparent molecular weight of air Harris, Arlo D.
Simple procedure for determining the density and apparent molecular weight of air.
Harris, Arlo D. J. Chem. Educ. 1984, 61, 74.

Atmospheric Chemistry |

Gases |

Molecular Properties / Structure |

Physical Properties

Enduring distributions that deny Boltzmann Nash, Leonard K.
Examines two practical steady- state distributions: the atmosphere and its lapse rate and the ocean and its vertical quasi-uniformity.
Nash, Leonard K. J. Chem. Educ. 1984, 61, 22.

Atmospheric Chemistry |

Gases

Oil shale - Heir to the petroleum kingdom Schachter, Y.
A discussion of oil shale provides students with real-world problems that require chemical literacy.
Schachter, Y. J. Chem. Educ. 1983, 60, 750.

Applications of Chemistry |

Alkenes |

Alkanes / Cycloalkanes |

Green Chemistry

Estimating energy outputs of fuels Baird, N. Colin
Which is the best fuel in terms of heat energy output: coal, natural gas, fuel oil, hydrogen, or alcohol? It is possible to obtain a semi quantitative estimate of the heat generated by combustion of a fuel from the balanced chemical equation alone.
Baird, N. Colin J. Chem. Educ. 1983, 60, 356.

Reactions |

Green Chemistry |

Thermodynamics |

Alcohols |

Alkanes / Cycloalkanes |

Geochemistry |

Stoichiometry |

Quantitative Analysis

Encapsulation of organic chemicals within starch matrix: an undergraduate laboratory experiment Wing, R. E.; Shasha, B. S.
This experiment explores current environmentally friendly technology.
Wing, R. E.; Shasha, B. S. J. Chem. Educ. 1983, 60, 247.

Green Chemistry |

Applications of Chemistry |

Agricultural Chemistry

The chemical oceanographer Abel, Robert B.
Oceanography holds fascinating subject matter for students learning chemistry.
Abel, Robert B. J. Chem. Educ. 1983, 60, 221.

Water / Water Chemistry |

Food Science |

Geochemistry |

Atmospheric Chemistry |

Drugs / Pharmaceuticals |

Applications of Chemistry

The titration of air with nitric oxide: An application of Gay-Lussac's law of combining volumes in a general chemistry experiment Everett, Kenneth G.
Gay-Lussac's law of combining volumes is demonstrated through the reaction between NO and the oxygen in air.
Everett, Kenneth G. J. Chem. Educ. 1982, 59, 802.

Titration / Volumetric Analysis |

Atmospheric Chemistry |

Gases

Ignition of magnesium in porcelain Feinstein, H. I.
Demonstrating the presence of nitrogen in air without ruining the porcelain glaze of a crucible.
Feinstein, H. I. J. Chem. Educ. 1982, 59, 159.

Laboratory Management |

Atmospheric Chemistry |

Quantitative Analysis

Stormy weather Taylor, Thomas E.
Question regarding the formation of rain clouds and the exothermic process of condensation.
Taylor, Thomas E. J. Chem. Educ. 1980, 57, 732.

Thermodynamics |

Atmospheric Chemistry |

Water / Water Chemistry |

Phases / Phase Transitions / Diagrams

Development of intellectual skills in the laboratory Ophardt, Charles E.
This first semester laboratory was designed to give instruction and practice in the intellectual skills of application, analysis, synthesis, and in Piaget's formal operations.
Ophardt, Charles E. J. Chem. Educ. 1978, 55, 485.

Learning Theories |

Qualitative Analysis |

Water / Water Chemistry |

Atmospheric Chemistry |

Acids / Bases |

Titration / Volumetric Analysis

Solar energy concepts in the teaching of chemistry Cantrell, Joseph S.
A justification for why solar energy concepts should be included in the teaching of chemistry and some curricular tips for the integration of these concepts.
Cantrell, Joseph S. J. Chem. Educ. 1978, 55, 41.

Green Chemistry

Gasoline vapor: An invisible pollutant Stephens, Edgar R.
An apparatus and procedure to demonstrate the substantial contribution vaporized gasoline makes to hydrocarbon pollution.
Stephens, Edgar R. J. Chem. Educ. 1977, 54, 682.

Physical Properties |

Gases |

Atmospheric Chemistry

Questions [and] Answers Campbell, J. A.
330-333. Four questions and their answers; includes comments made by readers on earlier questions 130, 153, 154, 171, 172, 181.
Campbell, J. A. J. Chem. Educ. 1977, 54, 678.

Enrichment / Review Materials |

Atmospheric Chemistry |

Applications of Chemistry |

Electrochemistry |

Electrolytic / Galvanic Cells / Potentials |

Metals |

Ultraviolet absorption of ozone Driscoll, Jerry A.
A demonstration of the absorption of ultraviolet radiation by ozone.
Driscoll, Jerry A. J. Chem. Educ. 1977, 54, 675.

Gases |

Atmospheric Chemistry

Questions [and] Answers Campbell, J. A.
315-322. Eight questions on subjects related to environmental chemistry and their answers.
Campbell, J. A. J. Chem. Educ. 1977, 54, 498.

Enrichment / Review Materials |

Applications of Chemistry |

Water / Water Chemistry |

Atmospheric Chemistry

Great spray can debate Bassow, Herb
A curriculum scenario that takes the problems raised by the technological, economic, and political contexts of the fluorocarbon controversy as its point of focus.
Bassow, Herb J. Chem. Educ. 1977, 54, 371.

Atmospheric Chemistry |

Gases |

Enrichment / Review Materials |

Applications of Chemistry

Separation of waste plastics. An experiment in solvent fractionation Seymour, Raymond B.; Stahl, G. Allan
The authors share their design for a scheme for separation of specific plastics from a mixture. This activity engages students and relates to recycling.
Seymour, Raymond B.; Stahl, G. Allan J. Chem. Educ. 1976, 53, 653.

Green Chemistry |

Separation Science |

Applications of Chemistry

The energy crisis. A new chemistry course for nonscience majors Piraino, Marie J.
After years of having had taught traditional chemistry courses for nonscience majors, the author shifted her curriculum toward developing an understanding of political, economic, and health issues affecting contemporary students.
Piraino, Marie J. J. Chem. Educ. 1974, 51, 802.

Nonmajor Courses |

Applications of Chemistry |

Green Chemistry

A study of water pollution. An undergraduate chemistry laboratory experience Sarkis, Vahak D.
In addition to its environmental relevance, a water pollution study of the inorganic constituents in water as outlined in this article, provides the student with certain important principles of chemistry namely, colorimetric and titrimetric procedures.
Sarkis, Vahak D. J. Chem. Educ. 1974, 51, 745.

Applications of Chemistry |

Metals |

Green Chemistry |

Water / Water Chemistry |

Titration / Volumetric Analysis

Analysis of chlorinated hydrocarbon pesticides. Experiments for nonscience majors Glover, Irving T.; Minter, Ann P.
This experiment allows students to explore the chemistry behind a controversial concern.
Glover, Irving T.; Minter, Ann P. J. Chem. Educ. 1974, 51, 685.

Green Chemistry |

Toxicology |

Applications of Chemistry

Nitric acid in rain water Gleason, Geoffrey I.
This trace analysis experiment is based on the conversion of nitrate to nitrite using a cadmium amalgam reductor column.
Gleason, Geoffrey I. J. Chem. Educ. 1973, 50, 718.

Acids / Bases |

Water / Water Chemistry |

Atmospheric Chemistry

The chemistry of pollution - An experimental course Frank, David L.
Briefly outlines the goals and topics of a course entitled "Chemistry of Air Pollution."
Frank, David L. J. Chem. Educ. 1973, 50, 209.

Atmospheric Chemistry |

Water / Water Chemistry

Questions [and] Answers Campbell, J. A.
Eight questions regarding the application of chemistry and their solutions.
Campbell, J. A. J. Chem. Educ. 1973, 50, 62.

Enrichment / Review Materials |

Applications of Chemistry |

Atmospheric Chemistry

Questions [and] Answers Campbell, J. A.
Five questions requiring an application of basic principles of chemistry.
Campbell, J. A. J. Chem. Educ. 1972, 49, 707.

Enrichment / Review Materials |

Applications of Chemistry |

Atmospheric Chemistry |

Astrochemistry

Student flowmeters and an air pollution experiment Kohn, Harold W.
Using glass wool as an absorbent for atmospheric contaminants and three simple devices for measuring flow rates of gases.
Kohn, Harold W. J. Chem. Educ. 1972, 49, 643.

Atmospheric Chemistry |

Gases |

Laboratory Equipment / Apparatus

Questions [and] Answers Campbell, J. A.
Eight questions requiring the application of basic principles of chemistry.
Campbell, J. A. J. Chem. Educ. 1972, 49, 624.

Enrichment / Review Materials |

Applications of Chemistry |

Atmospheric Chemistry |

Gases

Air pollution measurements in the freshman laboratory Suplinkas, Raymond J.
Summarizes the equipment and procedures used to measure air pollution (NO, NO2, and O3) in a freshman chemistry laboratory.
Suplinkas, Raymond J. J. Chem. Educ. 1972, 49, 24.

Atmospheric Chemistry |

Quantitative Analysis

Understanding a culprit before eliminating it. An application of Lewis acid-base principles to atmospheric SO2 as a pollutant Brasted, Robert C.
The SO2 molecule offers ample opportunities for teaching practical chemistry. [Debut of first run. This feature reappeared in 1986.]
Brasted, Robert C. J. Chem. Educ. 1970, 47, 447.

Acids / Bases |

Lewis Acids / Bases |

Atmospheric Chemistry |

Mechanisms of Reactions |

Reactions |

Applications of Chemistry |

Lewis Structures |

Molecular Properties / Structure

Cloud Caps on High Mountains Stevenson, Philip E.
The formation of cloud caps on high mountains illustrates cooling in an adiabatic expansion and the change in vapor pressure of a liquid with temperature.
Stevenson, Philip E. J. Chem. Educ. 1970, 47, 272.

Atmospheric Chemistry |

Gases |

Applications of Chemistry |

Phases / Phase Transitions / Diagrams |

Thermodynamics

Environmental chemistry in the classroom Day, Jean W.
The environmental sciences is an especially good vehicle for relating chemistry to other disciplines in courses for nonscientists.
Day, Jean W. J. Chem. Educ. 1970, 47, 260.

Nonmajor Courses |

Atmospheric Chemistry |

Applications of Chemistry

Stable isotopes of the atmosphere Eck, C. F.
This article briefly presents the composition of air, the discovery of isotopes, their concentration in air, and reviews their current enrichment status.
Eck, C. F. J. Chem. Educ. 1969, 46, 706.

Atmospheric Chemistry |

Isotopes |

Nuclear / Radiochemistry

Group zero. The atmosphere. B. Substances in the air Slabaugh, W. H.; Klug, Evangeline B.; Alyea, Hubert N.; Cooper, Edwin H.
Demonstrations include the analysis of air for oxygen content, paper burned in air, air + limewater, air + barium hydroxide, breathing into limewater, and the pH change from breath.
Slabaugh, W. H.; Klug, Evangeline B.; Alyea, Hubert N.; Cooper, Edwin H. J. Chem. Educ. 1967, 44, A599.

Atmospheric Chemistry |

Aqueous Solution Chemistry |

Demonstration notes: Oxygen in air Glanz, Joseph
Explains that the popular method of demonstrating the percentage volume of oxygen in air is fraut with errors.
Glanz, Joseph J. Chem. Educ. 1963, 40, A477.

Gases |

Atmospheric Chemistry

Radioisotopes on your rooftop Lockhart, Luther, B., Jr.
The collection, recovery, and measurement of radioactive materials from atomic testing can be done through the use of relatively simple procedures and is a good exercise in tracer chemistry.
Lockhart, Luther, B., Jr. J. Chem. Educ. 1957, 34, 602.

Nuclear / Radiochemistry |

Atmospheric Chemistry |

Isotopes

Letters to the editor Wolf, Milton G.
The author offers a means of determining the percentage composition of oxygen in air through burning phosphorus.
Wolf, Milton G. J. Chem. Educ. 1956, 33, 148.

Atmospheric Chemistry