Abstract: Systems and methods for measuring brain activity of a subject are disclosed, comprising: positioning a plurality of electric field sensors at multiple positions on the exterior of a skull of the subject; measuring one to three components of a plurality of instantaneous electric field vectors generated by a plurality of electric field sources, the electric field vectors being measured by the plurality of electric field sensors; and determining brain activity of the subject based on the measurement of the plurality of instantaneous electric field vectors.

Abstract: A sensor system and process for measuring electromagnetic activity of a brain are provided. The system and process employ a sensor assembly having a plurality of electrodes arranged in a closely spaced arrangement and a processor to determine a weighted average of the signals indicative of an electric field generated by electromagnetic activity of the brain. The system provides a medical body area network of a subject including one or more of the sensor assemblies and one or more additional sensors, which may be within a smartphone or other wearable device.

Abstract: A device for demonstrating the interaction of conservation of energy and conservation of momentum provides a set of balls each supported as a pendulum and in stationary contact, the balls having different weights to illustrate the concept of mechanical impedance.

Abstract: A device for demonstrating the interaction of conservation of energy and conservation of momentum provides a set of balls each supported as a pendulum and in stationary contact, the bails having different weights to illustrate the concept of mechanical impedance.

Abstract: A sensor system and process for measuring electromagnetic activity of a brain are provided. The system and process employ a sensor assembly having a plurality of electrodes arranged in a closely spaced arrangement and a processor to determine a weighted average of the signals indicative of an electric field generated by electromagnetic activity of the brain. The system provides a medical body area network of a subject including one or more of the sensor assemblies and one or more additional sensors, which may be within a smartphone or other wearable device.

Abstract: Systems and methods for measuring brain activity of a subject are disclosed, comprising: positioning a plurality of electric field sensors at multiple positions on the exterior of a skull of the subject; measuring one to three components of a plurality of instantaneous electric field vectors generated by a plurality of electric field sources, the electric field vectors being measured by the plurality of electric field sensors; and determining brain activity of the subject based on the measurement of the plurality of instantaneous electric field vectors.

Abstract: An anti-reflective layer solar cell/optical medium is provided by nanostructuring the surface of the optical material into which light transmission is desired. The surface of the optical material is etched through a nanoporous polymer film etch mask to transfer the porous pattern to the optical material. The resultant nanostructured layer is an optical metamaterial since it contains structural features much smaller than the wavelength of light and the presence of these structural features change the effective index of refraction by controlling the degree of porosity in the nanostructured layer and also by controlling the thickness of the porous layer.