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: Department of Materials Science and Engineering Campus: St. George (Downtown Toronto) Description: The Department of Materials Science and Engineering in the Faculty of Applied Science and Engineering at
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: An introductory course on colour that looks at its mechanics and interdisciplinary scope: from the history of science and culture to the technicalities of various colour spaces in both analog and digital
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academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs), also
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academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs), also
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academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs), also
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academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs), also
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Are you passionate about culture, the arts, natural history, and science? Are you keen on how these elements aesthetically come together to tell the many stories of humanity? Join our team at ROM
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(Nonessential): A Masters degree in life sciences or a related field. Two (2) or more years of experience conducting in-vivo and in-vitro experiments to test different features of a bioactive material. Experience
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will explore how and why material objects, cultural artifacts, and artistic works relate to and are transformed through technological mediation. We will examine several case studies in which elements
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of academia, industry, and government that leverages the power of artificial intelligence (AI), robotics, materials sciences, and high-throughput chemistry to create self-driving laboratories (SDLs