In fact, they were. The most recent and significant experiments to detect neutrinos include the T2K and SNO (soon to be SNO+) experiments.
Neutrinos come from the sun's core.
Neutrinos are incredibly hard to detect so the "absence" of neutrinos doesn't mean they are not there. It was long thought that neutrinos did not decay. We now know they do so. Thus, the lower than expected number of neutrinos detected coming from the Sun has been fully explained. It took four decades but the problem is now fully resolved.
it detect igE
Probably because they're so elusive. They're hard to detect and harder to measure.
Yes but not at much high level
Helium. The number two element. Fusion also generates a few neutrinos that are hard to detect.
Neutrinos are elementary particles that travel close to the speed of light, lack an electric charge, are able to pass through ordinary matter almost undisturbed and are thus extremely difficult to detect. Neutrinos have a minuscule, but non-zero, mass that was too small to be measured as of 2007.
Neutrinos are high energy particles. Earth is bombarded with more than million neutrinos every day that pass right through the earth, and everything on it. So they are very hard to detect, but special techniques have been developed for this too.
Neutrinos are all but impossible to detect and it is thought that they may have mass. If they are found to have mass, they would be the epitome of dark matter.
yes,a elephant has a super sense. it is its huge ears.
Solar neutrinos are electron neutrinos that are in the sun. The sun is what produces nuclear fusion.