Abstract: The FreeStylus device is a simple solution embodying an effective design. The stylus consists of two main parts, a cardboard tube and a rubber tip. The cardboard tube is constructed of four layers and acts as the core structure of the stylus. The outermost layer is designed to be smooth and visually appealing. The following inner two layers of cardboard are thicker and act as the main structure of the tube. An extremely thin sheet of aluminum foil is the final layer. The aluminum foil layer acts as an excellent conductor for consistent touch sensitivity. Contacting this foil layer and pressed into the end of the tube is a silicone tip. This combination is ideal for transferring the user's electromagnetic field to the touch screen. With this silicone tip, consistent and crisp operation is easily attainable regardless of the touch screen.

Abstract: An overdose detector that includes a motion sensor mounted or mountable on a chest wall and configured to detect chest wall movement, and wherein the overdose detector is configured to detect and/or predict an overdose based on the detected chest wall movement. Also described herein are associated systems, methods and computer program products.

Abstract: It is described a method of measurement of the volume VD of the flow-rate of electrically conductive liquids the conductivity of which is at least codetermined by at least one parameter p, wherein the liquid flows through a vessel having a predetermined shape, and wherein the respective filling volume Vo is determined by at least one measured value x, which is measured by an electrical conductivity measuring device comprising electrodes, wherein the vessel is filled in succession and then is emptied through its outlet, through which the filling heights h are constantly changing. At least one reference table comprising calibration measured values xR and filling volumes Vo belonging to them is constructed by means of calibration measurements using several liquid samples, which have different p-values and different filling heights h in the vessel.

Abstract: Various embodiments for an apparatus and method for preparing frozen tissue specimens are described. In an exemplary embodiment, the apparatus includes a sample container for receiving an excised tissue sample and embedding material. The sample container includes a flat base along which the tissue sample is flattened. The apparatus further includes a freezing box with a freezing platform and a freezing agent. The sample container is placed on the freezing platform to begin the freezing process. A chuck with a generally planar surface can be placed on the sample container during the freezing process joining the chuck, tissue specimen, and sample container base in generally parallel planes. In some cases, the sample container can be made from a suitable material, such as plastic, that is at least semi-transparent to allow visual confirmation of tissue flatness and freezing.

Abstract: A conductivity measurement device, at least for the determination of the fill height of electrically conductive liquids. There are provided a measuring element with at least one carrier body and at least two electrodes having a first and a second end and extending in the vertical direction, wherein the electrodes have at least one screened region in the region of the first end and each electrode has at least a first and a second exposed contact surface, each being adjacent to the screened region. A liquid treatment device with such a conductivity measurement device.

Abstract: It is described a method of measurement of the volume VD of the flow-rate of electrically conductive liquids the conductivity of which is at least codetermined by at least one parameter p, wherein the liquid flows through a vessel having a predetermined shape, and wherein the respective filling volume Vo is determined by at least one measured value x, which is measured by an electrical conductivity measuring device comprising electrodes, wherein the vessel is filled in succession and then is emptied through its outlet, through which the filling heights h are constantly changing. At least one reference table comprising calibration measured values xR and filling volumes Vo belonging to them is constructed by means of calibration measurements using several liquid samples, which have different p-values and different filling heights h in the vessel.

Abstract: Various embodiments for an apparatus and method for preparing frozen tissue specimens are described. In an exemplary embodiment, the apparatus includes a sample container for receiving an excised tissue sample and embedding material. The sample container includes a flat base along which the tissue sample is flattened. The apparatus further includes a freezing box with a freezing platform and a freezing agent. The sample container is placed on the freezing platform to begin the freezing process. A chuck with a generally planar surface can be placed on the sample container during the freezing process joining the chuck, tissue specimen, and sample container base in generally parallel planes. In some cases, the sample container can be made from a suitable material, such as plastic, that is at least semi-transparent to allow visual confirmation of tissue flatness and freezing.

Abstract: Various embodiments for a freezing receptacle and apparatus are described. The freezing receptacle includes a freezing box with a thermal agent that serves to freeze or cool an object or maintain the temperature of the object. The freezing receptacle includes at least one side wall having a sloped inner face that slopes inwards to ensure that the thermal agent remains in thermal contact with the object continuously as the thermal agent changes size and at least one side wall with a vertical face or an outer face that slopes outwards.

Abstract: A hardware system for recording honey bee acoustics coupled with software for filtering, summarizing and analyzing acoustic data detects and identifies airborne toxics. Summary data is analyzed using routine statistical procedures to associate sound spectra with acoustic variations produced by specific airborne compounds. Honey bees produce unique acoustics upon exposure to sub-lethal concentrations of various airborne toxicants, as well as to other stressors such as predatory mites. The system profiles acoustic signatures of free-flying honey bee colonies, analyzes the resulting sounds, and identifies compounds based on specific properties of the acoustic recording, providing a solution to the problem of wide-area, atmospheric monitoring.