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Byu video shorts selmie6/22/2023 Many do not know how to determine the accuracy or the truthfulness of new information. Living in a post-truth world in which there is more information available than there is time to process it presents particular challenges. Modernizing the plight of the thirsty Ancient Mariner, who proclaimed, “Water, water, everywhere, Nor any drop to drink,” 5 many today lament, “Data, data, everywhere, and not a thought to think.” 6 But it is clear that because we live in a digital age, in which there is so much information and there are so many different contending views of what is accurate, some people find that new information confounds and confuses rather than clarifies and enlightens. It is hard to know with certainty whether truth is really less important than it has been in the past. I wouldn’t be surprised if post-truth becomes one of the defining words of our time.” 3 Reflecting this view, several commentators have recently asserted that we live in a post-truth world, or a world in which truth “has become unimportant or irrelevant.” 4 denoting circumstances in which objective facts are less influential in shaping public opinion than appeals to emotion and personal belief.” 2 Casper Grathwohl, president of Oxford Dictionaries, explained the selection: “Fuelled by the rise of social media as a news source and a growing distrust of facts offered up by the establishment, post-truth as a concept has been finding its linguistic footing for some time. . . Recently, Oxford Dictionaries announced that the word of the year for 2016 is post-truth, a word they define as “an adjective. In 2015 the word of the year was not a word but a pictograph: the “face with tears of joy” emoji. of that particular year and to have lasting potential as a word of cultural significance.” Past selections include unfriend in 2009 and selfie in 2013. The launch date for ELaNa 20 is still to be determined.Each year Oxford Dictionaries selects a word of the year-“a word, or expression, that. “It’s pretty small, but even the simplest spacecraft can be quite complex,” Long said. According to engineers, that’s four times as many cables as a desktop computer at only a sixth of the size. It will be an impressive feat for a tiny, but intricate satellite - and a first for BYU’s College of Engineering.īecause the CubeSats have a camera on each face, there is a lot of tech packed in their 144 square centimeters, including six solar panels, four battery circuit boards, a radio circuit board, a computing board, and more than 25 cables. “There will be a bunch of us in the Engineering Building waiting in front of a screen, looking for a signal to show up on a little graph and we’ll be ecstatic when we see it.” 1 thing I can’t wait to see: those antennas scanning across the sky, watching for satellites,” said BYU grad student Patrick Walton. Satellite dishes atop the Clyde Engineering Building will scan the sky for the CubeSat and download its images and data when in range. Those images and video will be transmitted back to Earth, where engineers, including those at BYU, will be listening. Later, antennas will be triggered, the radio will start up, and the nano satellites will begin sending data.ĭownload this Gallery By clicking this link you agree to our Terms & Conditions The moment BYU’s CubeSats are deployed, they will boot up in less than a second and start recording video. The 10 nanosatellites will be loaded into a variety of tubular dispensers and deployed by a pressurized spring once in space. ELaNa, which stands for Educational Launch of NanoSatellites, are mission complements selected by NASA’s CubeSat Launch Initiative (CSLI) at Kennedy Space Center that support education, scientific exploration, and technical testing which can be used for future missions. Two versions of the BYU CubeSat will join satellites from eight other universities as part of NASA’s ELaNa 20 mission, scheduled to launch sometime this month from California on Virgin Galactic’s “Cosmic Girl” spacecraft. “In other words, it’s a spacecraft selfie cam.” “It’s a satellite that is designed to take pictures of another satellite,” said BYU engineering professor David Long. The 10-centimeter CubeSat, which includes contributions from more than 60 students over a five-year period, is outfitted with cameras on all six sides and will make it possible to inexpensively detect damage on the exterior of a spacecraft that cannot be seen in other ways. Video produced by Julie Walker filmed by Brian Wilcox.Īfter years of engineering, testing and coordinating with engineers from NASA’s Launch Services Program, Brigham Young University students have created a cube satellite that will launch into space on an official NASA mission later this year. BYU "spacecraft selfie cam" is ready to launch.
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