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Application filed by Univ Tecnologica De La MixtecafiledCriticalUniv Tecnologica De La Mixteca
Priority to MX2016001327ApriorityCriticalpatent/MX365882B/en
Publication of MX2016001327ApublicationCriticalpatent/MX2016001327A/en
Publication of MX365882BpublicationCriticalpatent/MX365882B/en
The present disclosure is related to an automated device with which the incidence of the sun's rays on the earth's surface was modeled in any combination of geographical latitude and longitude, at any given time, day and month of the year. Comprising a rotating platform with respect to three different axes holding an architectural or solar model with an arm-counterweight in the form of an arc, which also rotates around the platform and further having an illumination system consisting of a high power LED mounted on the arm-counterweight moving through the arc and all movements are controlled by a control and data acquisition system, processing the operating parameters given by the user through an interface to actuate quickly and accurately the engines that provide the desired positioning.
MX2016001327A2016-01-292016-01-29Automated device to simulate the solar trajectory.
MX365882B
(en)
Synchronous measurements of alpha-decay of 239Pu carried out at North Pole, Antarctic, and in Puschino confirm that the shapes of the respective histograms depend on the diurnal rotation of the Earth and on the direction of the alpha-particle beam
Geospatial Field Methods: An Undergraduate Course Built Around Point Cloud Construction and Analysis to Promote Spatial Learning and Use of Emerging Technology in Geoscience