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event 3 blog - COLOR LIGHT MOTION

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I had the unique opportunity to attend the virtual event "COLOR LIGHT MOTION" on Zoom, featuring the renowned artist Claudia Schnugg. Schnugg, known for her captivating exploration of light and space in her artwork, mesmerized the audience with her presentation on the concept of monoliths. Among the various thought-provoking ideas she shared, the discussion surrounding monoliths and their connection to space odyssey particularly stood out to me. Claudia Schnugg is an artist who seamlessly blends different media to create immersive experiences that push the boundaries of perception. Her work often involves the interplay of color, light, and motion, inviting viewers into a mesmerizing realm of visual exploration. With a background in fine arts, Schnugg has showcased her artwork in numerous exhibitions and galleries worldwide, leaving a lasting impact on those who encounter her creations. During the event, Claudia Schnugg introduced the concept of the monolith, a recurring motif

Week 9: Space + Art

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This week in class we focused on the intersection of space and art. Space, the final frontier, has long captivated human imagination, inspiring countless works of art and literature. Science fiction, in particular, has played a pivotal role in shaping our ideas about space exploration and discovery. From early books to modern blockbusters, the fascinating realm of space has been a catalyst for artistic inspiration and a driving force behind scientific advancements. "From the Earth to the Moon" by Jules Verne Science fiction literature, with its imaginative depictions of futuristic worlds and space travel, has laid the groundwork for scientific innovation. One seminal example is "From the Earth to the Moon" (1865) by Jules Verne, which envisioned a projectile fired from a giant cannon to send astronauts to the moon. Verne's novel not only captivated readers but also spurred discussions about the feasibility of space exploration. Arthur C. Clarke's "The F

nanotech + art

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The captivating realm where science meets art is exemplified by the intersection of nanotechnology and artistic expression. Nanotechnology, the manipulation of matter at the nanoscale, has emerged as a groundbreaking field with applications spanning various industries. People such as Richard Feynman, K. Eric Drexler, and Smalley were pioneers in this field. Additionally, I found the fascinating use of nanoparticles in food to particularly catch my attention during recent lectures. While nanotech should be recognized for its vast potential, it should also be approached with a  hint of skepticism, acknowledging the need to investigate potential risks associated with the field. Richard Feynman - a pioneer of the field of nanotechnology Richard Feynman, a visionary physicist, set the stage for nanotechnology with his famous speech, "There's Plenty of Room at the Bottom." Feynman speculated on the manipulation of matter at the atomic level before the advent of nanotechnology i

The Intersection of Neuroscience and Art

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Art and neuroscience may initially seem like disparate fields, but upon closer examination, they reveal a fascinating intersection where the complexities of the human mind and creative expression converge. Pioneers such as Sigmund Freud and Carl Jung delved into the depths of the unconscious, unraveling its mysteries and providing a foundation for understanding the relationship between art and the human psyche. Freud, the father of psychoanalysis, viewed the unconscious as a reservoir of repressed desires and memories that shape our thoughts and actions. He believed that through the analysis of dreams and free association, one could access and gain insights into the unconscious mind. Freud stated, "Dreams are the royal road to the unconscious." This emphasis on the unconscious as a repository of hidden motivations and conflicts resonated deeply within the artistic community, inspiring artists to explore their own depths and translate their findings into their creations. Jung,

event 2 blog

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On May 8th, I had the opportunity to attend the L.A.S.E.R. Talks on Zoom. The talks covered a wide range of topics including regenerative medicine, Dada resistance, Vermeer's art, and the concept of more-than-human time. The panel of speakers consisted of experts in their respective fields, and each presentation was enlightening and thought-provoking. One speaker who stood out to me was Ravi Majeti from Stanford, who spoke on "Stem Cells and Reprogramming in Human Acute Leukemia." He discussed his research on a novel approach to cancer vaccination that focuses on reprogramming a patient's own immune cells to target and eliminate cancer cells. Specifically, he focused on Precursor B-Cell acute lymphoblastic leukemia (B-ALL), which is characterized by a block in normal B cell differentiation at the pre B cell stage. Recent studies have identified genetic mutations in B-ALL that include many transcription factors involved in normal B-cell differentiation. Majeti's re

biotech, art, and the third ear

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This week’s module about the intersection of biotech and art has always been a controversial topic. The art world has always been fascinated by the latest technologies, but when it comes to incorporating biotechnology into the creative process, opinions are divided. Some argue that biotech art is not art at all, while others believe it is the future of artistic expression. According to Bowker and Star, "Dividing the world into arbitrarily bounded structures has social and economic consequences since each category decision lends authority to one point of view at the expense of another" (1999). This statement implies that the division between art and biotech may be arbitrary and not useful in the long run. One of the most interesting artists related to this week's topic was Stelarc and his 3D implant. Stelarc is a performance artist who explores the limits of the human body and the relationship between humans and technology. The 3D implant is a small, artificial ear th

medicine, tech, and art

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This week's topic of Medicine, Technology, and Art was particularly intriguing for me! The evolution of medical technology has enabled us to look inside the human body in a non-invasive way, and this has allowed us to see the art of the human body like never before. Dissection of cadavers has been used since ancient times to study human anatomy. The founder of human anatomy, Andres Vesalius, revised the scientific method for studying human anatomy and produced an illustrated book on the structure of the human body. Today, we have advanced medical imaging technologies like X-Rays, MRI, CAT scans, and others, that allow us to see the human body in incredible detail. Wilhelm Conrad Rontgen discovered X-rays in 1895, and Raymond Vahan Damadian developed the first MRI scanner in 1977. These technologies have revolutionized medicine and have allowed us to diagnose various medical conditions without invasive procedures. The Visible Human Project created detailed data sets of cross-sec