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Amazon is offering the SiriusXM Roady BT In-Vehicle Satellite Radio Kit for $69.99 shipped. Down 30% from its normal going rate at Amazon, today’s deal marks a new low that we’ve tracked there and is also the first discount all-time at the retailer. Designed to deliver in-vehicle entertainment, the Roady BT satellite radio installs in your car and connects to your stereo through Bluetooth, 3.5mm aux, or over a built-in FM transmitter. You can choose to mount it via a magnetic vent or dash adapter and there’s an additional mounting system that’s sold separately should you need it. Plus, it comes with a three month free trial of Sirius XM or you could opt for 12 months of the brand’s Platinum Programming Package for $99. Keep reading for more.

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The post SiriusXM Roady BT in-car satellite radio kit lets you tune in anywhere for $70 (First sale) appeared first on 9to5Toys.

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Researchers zero in on the source of fast radio bursts

NewsTech

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Image of a blue-white sphere, representing the star.

Enlarge / An event on the surface of a magnetar may produce fast radio bursts. (credit: NASA's Goddard Space Flight Center)

Fast radio bursts are exactly what their name implies: a sudden surge of photons at radio frequencies that often lasts for less than a second. Once scientists had finished convincing themselves that they weren't looking at equipment glitches, the search was on for what was producing the vast amounts of energy involved in a fast radio burst (FRB).

The discovery of the first repeating FRB told us that the process that generates an FRB doesn't destroy the object that does the producing. Eventually, an FRB was found that was associated with events at additional wavelengths, allowing the source to be identified: a magnetar, a subset of neutron stars that has the Universe's most extreme magnetic fields. While that represents excellent progress, it still doesn't tell us anything about the physics of how the burst is produced—knowledge that would presumably tell us why most magnetars don't produce them and why the burst tends to start and stop so suddenly.

Now, researchers have identified an FRB that helps limit our ideas about what can produce them. The FRB itself appears to be a single event, but it's composed of nine individual bursts separated by about 215 milliseconds. The rapid pace means that the source of the burst almost certainly has to be near the surface of the magnetar.

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