How is 3D printing used in the space industry and how its use in space will be revolutionary for the technology ?Say no to plagiarism. Get a tailor-made essay on “Why Violent Video Games Should Not Be Banned”? Get an original essayA company called Planetary Resources developed a spacecraft in 2014 made entirely using 3D technology. The contraption was designed using CAD software and the parts were printed using 3D printers. The final product costs and weighs significantly less than an average NASA satellite. The final product was designed to be rather simple and did not serve a very vital function. However, the fact that a 3D printer could generate an object capable of flying in space is astonishing, even more astonishing when you consider the fact that the product only had about 12 moving parts. . This is a huge step forward in the 3D printing industry and proves that 3D printing is not just a fad for hobbyists. A machine capable of producing spaceships is likely to be capable of anything. How do new reality capture platforms affect the 3D printing market? What are some of these new data capture methods? As 3D printing continues to evolve over the years, reality capture has grown with it. The technology of 3D scanners and photogrammetry has advanced considerably. Incredibly high resolution 3D models can now be created using devices such as a simple smartphone. Reality capture software continues to evolve to create increasingly complicated and complex printable models. Handheld scanners can now be used almost anywhere to create a 3D model of almost any object. High-resolution cameras can be used in conjunction with photogrammetry software to produce highly detailed 3D models of real objects. These higher resolution 3D models allow final prints to be more precise, detailed and of higher overall quality than ever before. As reality capture techniques continue to improve, the quality of models and their subsequent prints will also improve. What are the near future predictions for 3D printing according to industry leaders and researchers? Be sure to include information from videos and readings in your answer. Watch the videos of Avi Reichental and Ping Fu in particular. In the immediate future, industries such as jewelry, toys, trinkets, ceramics, small gifts, etc. are estimated to increase. will experience growth in the world of 3D printing. It's possible that within ten years, 3D printing will simply become the means by which we produce small, simple objects like these. Accessories and clothing will become easier and easier to produce as technology advances. Large-scale industrial products such as cars, boats, airplanes, spacecraft, factory machinery, etc. will also start to incorporate 3D printing more and more, but this won't be the norm for some time. The two main types of 3D printing coming up are metal printing and bioprinting. Metal printing is already possible and has been widely used and experimented with. As this process becomes more perfect, large metal products such as cars will become much easier, cheaper and faster to produce. Bioprinting is still in the experimental phase, but it is a growing technologyfast. Researchers are currently able to print skin directly onto injured body parts. Entire body parts, such as ears, have already been printed, and researchers hope to soon be able to print larger organs, such as livers and kidneys, for implantation in patients. Researchers and industry leaders in these fields see many potential benefits of 3D technologies, such as a significant reduction in waste. A greater advantage, however, lies in the customization possibilities. The vast customization brought by 3D technologies will make it much easier than ever for consumers to contribute to the design and see exactly what they want. What is the impact of 3D printing on art? What changes in the art sector are happening thanks to this technology? Artists are now using 3D CAD software to design works of art such as sculptures. Software allows artists to come up with more complicated and obscure designs than they could before. Handheld scanners allow artists to scan a person or object that they want to turn into a work of art. This scan can then be uploaded to computer software where the artist can modify the piece as desired. The artist can then use the model as a template to construct the finished piece by hand, or the artist can print the complex, edited model in a printer. Films are now starting to use 3D technologies such as scanners to create digital and CGI effects. Special effects experts can use a scanner to create models of people and places that can be digitally rendered and placed in the film. This allows the special effects team to create a fully CGI render with much greater ease than ever before. Another artistic advancement is the creation of sculpted portraits and busts. Now, using LED lights and cameras in conjunction with photogrammetry and 3D scanners, incredibly accurate 3D models can be created of individuals seeking portraits. These 3D models can then be printed for the client requiring the portrait using high quality 3D printers. This is a much cheaper and quicker process than having an artist physically sculpt someone's portrait. How 3D printing has impacted education, digital heritage and learning, and provide five of your own predictions for 3D printing in the foreseeable future. future?As a disruptive technology, 3D printing and 3D technologies have begun to change the way we do almost everything, including learning, teaching and heritage preservation. In the past, a teacher in a classroom, for example, needed to have items on hand to teach, or to order them and have them shipped. Now, if the teacher has access to 3D printing, they can simply find a model of the object they want to teach with and print it. Instant access to educational tools will continue to facilitate learning and interest in learning. For heritage preservation, 3D scanning and photogrammetry have had very significant impacts. Previously, to obtain an artifact model in the field, a researcher had to press material onto the artifact and create a mold. Now researchers can simply scan the object with a handheld scanner and create a 3D model, which can then be printed. This allows researchers to have highly detailed images and models of the parts they are studying without ever coming into physical contact..