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If a human were orbiting Pluto, the amount of sunlight reaching that location would be significantly reduced compared to the brightness experienced on Earth. Pluto is located about 39.5 astronomical units (AU) away from the Sun, where 1 AU is the average distance between the Earth and the Sun.

At that distance, the Sun would appear as a very bright star in the sky, but it would provide only a fraction of the light intensity compared to what we experience on Earth. The reduced sunlight would make it challenging to see Pluto's surface with clarity.

Furthermore, Pluto's surface is predominantly composed of ice, and its atmosphere is thin. These factors, combined with the reduced sunlight, would likely result in a dimly lit environment. The limited light available would make it difficult to observe fine details or see Pluto's surface clearly from an orbit around the dwarf planet.

It's worth noting that the New Horizons spacecraft, which conducted a flyby of Pluto in 2015, captured high-resolution images of the dwarf planet's surface. These images provided valuable insights into Pluto's geology and features. However, these images were captured during a flyby rather than from a sustained orbit, and they required sophisticated imaging equipment to overcome the challenges posed by the limited light levels.

In summary, if a human were orbiting Pluto, the sunlight reaching that location would be significantly reduced compared to Earth. The diminished light levels, combined with Pluto's surface composition and thin atmosphere, would make it challenging to see the surface with clarity.

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