Presents hands-on activities that give students a head start in learning the vocabulary and basic theory involved in understanding atomic structure. Uses beads to represent protons, neutrons, and electrons and string to represent orbitals. (DDR)

Describes an activity in which students determine where wind chime tubes should be supported and struck to give the best tone, then find the frequency of the tubes. This activity can be used to introduce ideas on significant figures, experimental error, types of variation, peer review of results, seeking empirical relationships with data, and…

Advocates using computer-simulated learning environments to allow students to develop their own problem-solving rules when it comes to collecting and evaluating scientific data. Describes the use of "Identibacter interactus" to simulate identification of an unknown microorganism. (WRM)

Describes an experimental system based on an engineered strain of bakers' yeast that is designed to involve students in the process by which scientific knowledge is generated. Students are asked to determine why the yeast grow to form a reproducible pattern of red and white. (WRM)

Describes a cooperative, interactive problem-solving exercise for studying eukaryotic cell structure and function. Highlights the dynamic aspects of movement through the cell. Contains 15 references. (WRM)

Describes a way of performing the classic oil drop experiment in which a CCD video camera replaces the eyepiece of the microscope, reducing measurement error to approximately 7%. (WRM)

Describes the use of potassium chloride in quantitative project investigations into radioactivity. (WRM)

According to historical stories, the Saxons placed a bowl with a hole in its bottom in water and used the time it took the bowl to submerge to limit orations. Describes a science activity in which students find a relationship between the diameter of the hole and the time to submergence. (WRM)

Introduces the Science Education Leadership Fellows (SELF) program which is an innovative cooperation program between teachers and scientists. Engages teachers in subject areas such as microbiology, molecular biology, immunology, and other professional development activities. Presents an activity in which students observe bacteria cultures and…

Presents an activity that uses supermarket chemicals to perform a clock reaction in which the endpoint is signaled by an abrupt change in the appearance from colorless to blue-black. This activity can be used to explore reaction kinetics and the effect of reactant concentrations on the apparent rate of reaction. (DDR)

Describes an iodine clock reaction that produces an effect similar to the Landolt clock reaction. This reaction uses supermarket chemicals and avoids iodate, bisulfite, and mercury compounds. Ascorbic acid and tincture of iodine are the main reactants with alternate procedures provided for vitamin C tablets and orange juice. (DDR)

Describes a dramatic chemical demonstration in which chemicals that are black and white combine to produce a colorless liquid. Reactants include tincture of iodine, bleach, white vinegar, Epsom salt, vitamin C tablets, and liquid laundry starch. (DDR)

Reports the discovery of an efficient base composition for making bengal lights that is obtained with potassium chlorate and thiourea. Combining this mixture with appropriate flame coloring can produce several impressive bengal lights. (DDR)

Introduces a program that brings inquiry-based, hands-on activities to middle school science students through the participation of volunteer college students. Explains fall and spring activities for 5th and 6th grade students. (Contains 16 references.) (YDS)

Describes the development, implementation, and results of a pond life elementary student research project. Utilizing the pond life example, provides guidelines for children's research projects including the implementation of the K-W-L (know-want to know- learned) strategy with the children's reports/projects. Provides resources utilized in the…