Vincent Van Gogh's 'The Starry Night,' may have been painted in 1889, but experts in all fields are still studying it until now—and something phenomenal has been revealed.
In a new study published in the Physics of Fluids journal, physicists found that the iconic artist applied "atmospheric turbulence" in the painting at a microscale level, alluding to Van Gogh's "deep and intuitive understanding" of cloud movements and atmosphere made through paint strokes.
(Photo : Wikimedia Commons)
Long before the study was published, Ars Technica shared that a Concord Consortium's research associate and The Art of Mental Calculator author sampled Starry Night to show the "concept of turbulence in a flowing fluid." Impressionist painters later learned to paint the movement of light when touching waters or stars, thanks to Gogh's technique. This is the "shimmering effect" we see on twinkling stars since our eyes are more sensitive to light intensity or luminance than colors.
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Van Gogh's Starry Night Depicting 'Turbulence' in Fluid Dynamics
In the same Ars Technica report, Starry Night was already analyzed in 2019 and was found to resemble the swirling patterns in molecular clouds, which shows similarities to Kolmogorov's Law. This Van Gogh technique was used in some of his works too, including the Wheatfield with Crows.
(Photo : Wikimedia Commons)
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