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30 July, 01:19

Consider a civilization broadcasting a signal with a power of 1.2*104 watts. The Arecibo radio telescope, which is about 300 meters in diameter, could detect this signal if it is coming from as far away as 110 light-years. Suppose instead that the signal is being broadcast from the other side of the Milky Way Galaxy, about 70000 light-years away.

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  1. 30 July, 01:48
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    The same power (1.9*10^4 watts) gets diminished by Inverse square law

    (ratio of distances) ²

    = (138/70000) ²

    = 3.886506 X 10^-6.

    This is the diminution factor for the given sensitivity of the telescope. But at 3.8865 millionth below the sensitivity its is far below detection; it needs to be enhanced by collecting the energy over an area so many times more (by an aperture multiplied by same factor)

    1/[3.886506 X 10^-6] = 257298.88

    In other words the diameter should have the ratio of square root of this

    (70000/138).

    This multiplied by 300m dish gives

    300 X (70000/138) = 152173.913 m = 152.1739 km.

    This should be the aperture of the new telescope for detecting the signal.
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Home » Physics » Consider a civilization broadcasting a signal with a power of 1.2*104 watts. The Arecibo radio telescope, which is about 300 meters in diameter, could detect this signal if it is coming from as far away as 110 light-years.
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