The nuclear reactions going on in the heart of the Sun.
Europeans were interested in Africa because they were interested in turning the natives in to slaves.
Maybe because the neutrinos they are looking for aren't in space. Neutrinos have to be 4,000 feet below the surface to be deciphered between a neutrino and a cosmic ray. Once below 4,000 feet they slow down enough to be detected more accurately. (This information was given to us in a tour by staff at the Homestake Mine in Lead, SD.)
because it was like unique because it has like craters and because none other like comet like has one
Astronomers help because they can help measure the time, or what day it is for the caravans.
Imperialist were interested in China because of their healthy agricultural Economy and their extensive mining and manufacturing industries.
Probably because they're so elusive. They're hard to detect and harder to measure.
because they want to
No, because Canada did not fund the rovers in any way. They can use the information obtained from them, however.
astronomers do what they do because they want to find bigger and better things that have yet to be discovered.
Europeans were interested in Africa because they were interested in turning the natives in to slaves.
In much the same way that you tune your radio to listen to your favourite music, radio astronomers can tune their telescopes to pick up the radio waves that come from quasars, other distant galaxies and the cosmic microwave background that are millions of light years from the Earth.
Astrologers look at stars and predict events according to what they see. They are different from astronomers because astronomers have a scientific basis, while astronomers do not.
because it releases energy, neutrons and neutrinos.
because it releases energy, neutrons and neutrinos.
At present, no problems. 15 years ago, scientists had no explanation for the small number of solar neutrinos detected at our Earth. Either we didn't understand neutrino formation in our Sun, our detectors were wrong, or neutrinos had the capacity to decay. The latter seemed to be the least likely possibility, so scientists argued for many years which of the first two was correct. In 1998 it was discovered that neutrinos do, indeed, decay into other neutrinos. The reason we weren't seeing as many neutrinos as we expected was because the ones we were expecting to see had decayed into other types. So the solar neutrino problem is no longer a problem.
Because their growing and their bodies need more neutrinos.
The speed of light is exceeded by several things. Wave guides for instance. However all present theories preclude any information or mass to exceed the speed of light. Neutrinos have never been sent through the CERN collider at super-luminal velocities.