PTC thermistor protects multiloaded power supplies

A PTC /Positive-Temperature-Coefficient/ thermistor placed in series with each branch load of a multiload circuit prevents power loss in parallel branches. This thermistor may be used in any circuit requiring current limiting or intended overload resetting

Automatic solar lamp intensity control system

System that substitutes solar cells directly in the path of the radiation incident on the test volume and uses a dc bridge-null system was developed. The solar cell is affixed to a heat sink mounted on each of three arms for each solar lamp. Control of the radiation from the solar lamps is automatic

Crowds as complex adaptive systems: strategic implications for law enforcement

Law enforcement attempts to control unruly crowds have come under increased scrutiny in light of recent unrest in Ferguson, Missouri; Baltimore, Maryland; and other locales across the United States. Resultant criticism is forcing law enforcement agencies nationwide to review their civil-unrest policies. Crowd behavior resulting from police actions is an important component of crowd control. Viewing crowds from a systems perspective, as done in this thesis, provides powerful new insights to help law enforcement assess potential crowd behaviors. Through this new awareness, this thesis makes recommendations regarding policies, training, and equipment that law enforcement can use to make better-informed decisions related to crowd control.http://archive.org/details/crowdsscomplexda1094548549Lieutenant, Massachusetts State PoliceApproved for public release; distribution is unlimited

Florida Gulf Bay Scallop (Argopecten Irradians Concentricus) Population Genetic Structure: Form, Variation, and Influential Factors

Knowledge of changes in the interdependence of a species\u27 populations for continued existence (connectivity) and of the forces driving connectivity patterns is critical for management and conservation of the species. Population genetics can be used to investigate population connectivity. Combining population genetics with climatic, environmental, and biological (external) factors that can influence population structure and connectivity can lead to a greater understanding of the forces influencing population dynamics. We deciphered the population genetic structure and connectivity patterns of bay scallops (Argopecten irradians concentricus Lamarck) from Florida Gulf of Mexico waters using allozyme-locus and mitochondrial DNA population genetics data from samples representing four consecutive generations. We evaluated bay scallop population genetic relationships within the context of habitat, hydrodynamic, and environmental variation, and concomitant spatial patterns in the abundance of adult and recently recruited scallops to infer the influence of these factors on bay scallop population structure. Florida Gulf bay scallops form a hierarchical, mixed-model, source-sink metapopulation with intergenerational variation in connectivity that seems to be influenced by the factors we considered. An El Niño event that occurred during 1 y caused climatic and environmental change that greatly reduced subpopulation connectivity, allowing us to understand more completely the potential relative importance of the other external factors on change in metapopulation connectivity over time. Our study illustrates the value of using multiple genetic markers, sampling for multiple years, and integrating data from multiple external factors for understanding the population genetic structure of species for adaptive management