Scientists have discovered carbon dioxide and hydrogen peroxide on the surface of Charon, Pluto’s largest moon, offering clues about the origins of the space rock and other celestial objects in the distant solar system.Using observations from the James Webb Space Telescope’s near-infrared spectrograph instrument, astronomers at the Southwest Research Institute in Boulder, Colorado, gathered new details about Charon’s composition. Previous exploration at NASA brought basic information to light about the icy mass, including the fact that it was composed mainly of crystalline water ice, ammonia and several other organic materials.The latest findings are significant, as they “highlight insights into the chemical diversity and evolutionary processes on Charon,” wrote the team of researchers at SWRI in the results of their study. Those results were published Tuesday in the journal Nature Communications.Technically the largest of Pluto’s five moons, Charon is actually half the size of its parent planet at about 754 miles wide. The relationship between their relatively similar sizes is unusual, according to NASA, so Pluto and Charon together are sometimes referred to as a double dwarf planet system. The New Horizons spacecraft has studied the distant moon before, collecting images of Charon in 2015 as it approached a point in its orbit nearest Pluto. Those images revealed a vast tectonic belt stretched across the equator, hinting at a water-ice ocean present long ago, and, notably, a red-toned region at the massive moon’s northern pole. This image made available by NASA on July 24, 2015, shows a combination of images captured by the New Horizons spacecraft with enhanced colors to show differences in the composition and texture of Pluto’s surface. / Credit: NASA/JHUAPL/SwRI via APBut other fundamental components of Charon’s surface evaded detection, as N …