ALMA puts a black hole on the scale Read time: 3 minutes How do you weigh a black hole? For a person, it’s easy. You just step upon a scale and read off your weight. But no scale is largeenough to carry a black hole! Even if it were, it would be gobbled up by the black hole’s incrediblegravitational pull in no time. Nevertheless, astronomers have now precisely determined the mass of a black hole in a distantgalaxy. Not with a scale, but by measuring the rotational velocity of a disk of cold gas around theblack hole, using ALMA. The principle is well-known in astronomy. Take our own sun, for example. You can’t put it on a scale,but still, astronomers know how much it weighs. They only need to measure the orbital velocities ofthe planets. Mercury, the nearest planet, orbits the sun at some 48 kilometers per second. The Earth,though, only travels at 30 kilometers per second. And distant Neptune slowly crawls around at justsome 5.5 kilometers per second. If you know both a planet’s orbital velocity and its distance to the sun, it’s very straightforward tocalculate the mass of the sun. The same is true for gas orbiting a black hole. Close to the black hole,where gravity is strong, the gas will move faster than far away from the black hole, where gravity isweaker. ALMA was trained at a huge elliptical galaxy in the southern sky. From earlier measurements, it wasalready known that the galaxy harbors a massive black hole in its very core. Thanks to its sharp vision,ALMA could discern a rotating disk of cold gas surrounding the black hole. And by measuring themillimeter radiation of carbon monoxide molecules in the gas, the astronomers could determine therotational velocity at various distances from the black hole. From the observations, the astronomers calculated that the black hole in the galaxy’s core must weigh in at a stunning 2.25 billion times the mass of our own sun. It’s the highest black hole mass ever determined by ALMA. About one out of every ten elliptical galaxies has a rotating disk of gas in its very center. Therefore,the astronomers hope that they will be able to weigh many more black holes, in other galaxies, usingthe same clever technique. What? The large elliptical galaxy studied by ALMA is known as NGC 3258. It is at least 100 million light-yearsaway from the Earth, in the southern constellation Antlia, the Air Pump. The galaxy was discovered in1834 by astronomer John Herschel, who studied the southern sky from South Africa. Like all ellipticalgalaxies, NGC 3258 has a supermassive black hole in its core. The black hole is surrounded by arotating disk of cold molecular gas. The new ALMA measurements revealed that the outer rim of thisdisk, some 500 light-years away from the black hole, moves around at about one million kilometersper hour. However, much closer in, at a distance of just 65 light-years from the black hole, the gas whirls around at well over three million kilometers per hour. From these measurements, it followsthat the black hole’s mass must be some 2.25 billion times the mass of the sun. Who? The ALMA observations of NGC 3258 were carried out by a team of astronomers led by BenjaminBoizelle of the Texas A&M University in the United States. Benjamin worked together with hisAmerican colleagues Aaron Barth, Jonelle Walsh, David Buote, Andrew Baker and Jeremy Darling, andwith Luis Ho from Peking University in China. The team has published their results in a paper in TheAstrophysical Journal. ALMA URL