THE USM SOUTHWORTH PLANETARIUM 207-780-4249 www.usm.maine.edu/planet 70 Falmouth Street Portland, Maine 04103 43.6667° N 70.2667° W Altitude: 10 feet below sea level Founded January 1970 Julian date: 2458584.35 2018-19: CXX "Out of night, out of mind." THE DAILY ASTRONOMER Thursday, April 11, 2019 About That Black Hole Photograph [image: wS5ytyMNaRpRMuCp62yjKn-970-80.jpg] Yes, that one. It has certainly generated a tsunami of interest in all things astronomical these last couple of days. This behemoth of a black hole has also elicited a deluge of questions about itself and about black holes in general. So, today and on Monday -we think- we'll strive to answer as many of these queries as we can possibly address. We apologize for not being able to offer specific attributions for these questions. The following is, instead, a collection of the questions we've received over the last forty-eight hours WHERE IS IT AND HOW BIG IS IT? This supermassive black hole, which, if put in the Sun's place would extend beyond Neptune's orbit, is in the center of galaxy M87, located about 55 million light years from our solar system. This black hole is approximately 6.5 million times more massive than the Sun. (The black hole occupying the center of the Milky Way is about 4 million times more massive than our parent star.) HOW CAN WE PHOTOGRAPH A BLACK HOLE IF THERE IS NOTHING TO SEE? True enough. A black hole's gravity is so powerful that not even light can escape from it. However, an accretion disk will often form around a black hole. Such a disk produces copious amounts of high energy radiation due to the differential rotation. (The gases close to the black hole move faster than those farther away: the resultant frictional heating produces this radiation.) Also, the extreme spacetime curvature around a black hole causes light to shift around it, thereby producing a photon ring. WHY BOTHER PHOTOGRAPHING IT IF WE ALREADY KNOW ABOUT BLACK HOLES? There is no substitute for visual confirmation. The black hole image is consistent with astrophysical models developed about black holes. While most researchers were confident that these descriptions were accurate, they are pleased to have this added confirmation. WE'RE SEEING THE BLACK HOLE AS IT WAS 55 MILLION YEARS AGO. IS IT STILL THERE? Oh, absolutely! Black holes do "evaporate" due to the emission of Hawking radiation, but such evaporation is a laboriously long process. In fact, supermassive black holes are basically immortal, as their life expectancy is on the order of ten to the power of 66 Earth years: so long as to be meaningless, even on cosmological time scales. Do you have any questions about the black hole photo or black holes, in general? Please send them. We'll address them on Monday.