Provides a laboratory experiment using a pendulum on the conservation of energy. The activity has an easy analysis, accurate results, and is enjoyable for the students. (MVL)

Presents an exercise that attempts to correct for the common discrepancies between theoretical and experimental predictions concerning projectile motion using a spring-loaded projectile ball launcher. Includes common correction factors for student use. (MVL)

Provides an inexpensive method (less than $125) for performing experiments usually requiring a laser. Suggests building a laser diode light source, a device for producing multiple parallel beams, a light meter, a polar/analyzer, a laser light show apparatus, and a circuit to modulate the laser diode intensity. (MVL)

Students conducted an experiment to study the plant growth of three Amaryllis plants. Students examined the speed and amount of growth, cross-pollinated the plants to produce seeds, and compared the growth of amaryllis seeds to the growth of onion seeds, a plant in the same family, Amaryllidaceae. (MDH)

Presents and discusses the following six questions to focus students' inquiry experiences: (1) What do you think will happen? (2) What actually happened? (3) How did it happen? (4) Why did this happen? (5) How can we find out which of these hypotheses is the most reasonable? (6) How can you relate the investigation to your daily life? (PR)

Presents five hands-on activities that allow students to detect, measure, reduce, and eliminate moisture. Students make a humidity detector and a hygrometer, examine the effects of moisture on different substances, calculate the percent of water in a given food, and examine the absorption potential of different desiccants. (MDH)

Describes some simple experiments related to the properties of crystals. Illustrates isomorphism using single crystals of alum. Presents experiments for determining how various mixture compositions affect the growth of salt crystals. (WRM)

Describes a procedure that allows undergraduate students to determine the approximate age of the universe using their own data. The experiment requires a relatively small telescope with a modest spectrograph. Includes sample data and calculations. (Contains 11 references.) (Author/WRM)

Describes two simple experiments on staring which have been tested with children as young as eight. Both procedures involve a looker and a subject where subjects say whether or not the looker is looking. The score in looking trials is usually above the 50% chance level. Includes score sheet. (PVD)

Describes how the sound card of a personal computer can be used to collect data in physics experiments. Discusses gravity and simple waveforms. (Author/MM)

Explains an oxidation-reduction experiment using lemon cells made from zinc and copper strips of metal placed into a lemon. (YDS)

Presents an activity that demonstrates the effectiveness of flame retardants--substances added to combustible materials to slow down or hinder burning--that can be introduced when discussing combustion reactions or during a practical or everyday chemistry unit. (ASK)

Flame tests are used for demonstration of atomic structure. Describes a demonstration that uses spray bottles filled with methanol and a variety of salts to produce a brilliantly colored flame. (Contains 11 references.) (ASK)

Electrochemiluminescence involves the production of light near an electrode surface by generating species that can undergo highly energetic electron transfer reactions. Presents a demonstration that uses Ru(bpy)32+ (bpy = 2,2'-bipyridine) as the light-emitting molecule and tri-n-propylamine (C9H21N) as a coreactant. (Contains 25 references.) (ASK)

As one of the authors was warning the fifth-grade class about protecting clothes from spills in the lab, one student commented that his pants wouldn't stain because they were covered with some "nano stuff." The class tossed water on the pants and watched it bead up and roll off "like magic." The class's interest was piqued, and the questions…