In his swirling 1889 masterwork, The Starry Night, Van Gogh took certain artistic liberties. The quaint valley village is imaginary and the brilliant crescent moon was actually in waning gibbous. Fair enough, it was, after all, painted during the day from Van Gogh’s windowless studio at the Saint-Paul-de-Mausole asylum.
When it comes to depicting the physics affecting the sky’s cloud and air movement, however, Can Gogh is remarkably accurate. This is the conclusion of researchers who have thoroughly examined The Starry Night’s atmospheric dynamics and found that the artist had an “innate sense of how to capture the dynamism of the sky.”
Working from a high-resolution digital image of the painting in the Museum of Modern Art’s collection, scientists specializing in marine sciences and fluid dynamics focused on the bold lines of Van Gogh’s brushstrokes and compared them to the laws of physics. The results were published in Physics of Fluids on September 17.
First, they identified The Starry Night’s 14 main whirling shapes, the churns of whites, blues, and yellows that wrap around stars, the sky, and the moon. Next, they measured the scale and spacing of the brush strokes within these shapes as well as the brightness of the varying paint colors.
The proportions and spacing of the brushstrokes stood in for the shape, energy, and scale of atmospheric characteristics, similar to “leaves swirling in a funnel of wind,” the authors wrote. Brushstroke brightness stood in for the kinetic energy of movement. These properties were then compare when cascading energy theory, which details how kinetic energy moves from large to small turbulent flows in the atmosphere.
The paper concluded that overall the painting aligns with Kolmogorov’s theory of turbulence, which predicts atmospheric movement and scale based on the amount of energy involved. Previous studies on turbulence in The Starry Night had only examined select parts of the painting; lead author Yongxiang Huang said accurately measuring the brushstrokes had been crucial.
“Van Gogh’s precise representation of turbulence might be from studying the movement of clouds and the atmosphere,” Huang said. Though perhaps he simply had “an innate sense of how to capture the dynamism of the sky.”
It is far from the first scientific study to have been conducted on The Starry Night. Previous studies have compared the painting’s turbulent properties to molecular clouds that form stars and how Van Gogh used color theory (and newly available paints late 1800s) to create a perception of flickering in the brain.