Quasars, an abbreviation for quasi-stellar radio sources, are distant objects th
ID: 1596878 • Letter: Q
Question
Quasars, an abbreviation for quasi-stellar radio sources, are distant objects that look like stars through a telescope but that emit far more electromagnetic radiation than an entire normal galaxy of stars. An example is the bright object below and to the left of center in the following figure; the other elongated objects in this image are normal galaxies. The leading model for the structure of a quasar is a galaxy with a supermassive black hole at its center. In this model, the radiation is emitted by interstellar gas and dust within the galaxy as this material falls toward the black hole. The radiation is thought to emanate from a region just a few light-years in diameter. (The diffuse glow surrounding the bright quasar shown in the figure is thought to be this quasar's host galaxy.) To investigate this model of quasars and to study other exotic astronomical objects, the Russian Space Agency plans to place a radio telescope in an orbit that extends to 77,000 km from the earth. When the signals from this telescope are combined with signals from the ground-based telescopes of the VLBA, the resolution will be that of a single radio telescope 77,000 km in diameter. What is the size of the smallest detail that this arrangement could resolve in 3C 405, which is 7.2 times 10^8 light-years from earth, using radio waves at a frequency of 1665 MHz? Give your answer in light-years and in kilometers.Explanation / Answer
Given
telescope of diameter od objective lens is O = 77000 km = 77*10^6 m
the frequency of the radio waves is f = 1665 MHz, wavelength Lambda = 3*10^8 /(1665*10^6)
the limit of resolution is e = 0.61*lambda/O
e = 0.61*0.180180/(77*10^6) = 1.4274*10^-9 m
e = (1.4274*10^-9)/(9.461*10^15) lyr = 1.5087200084558*10^-25 lyr