WELCOME

The researchers used GRAPES-3 to map the distance to the

Aug. 9, 2018 by Lena Webb

The researchers used GRAPES-3 to map the distance to the nearest point in the sky. What was surprising, however, is that the data was also pretty noisy. The closest point to the Earth was about 1.3 miles away (or 1.6 km. from the observatory, depending on the measurement of the detector and how far the data was recorded).

The scientists say that when they went back to examine the data for themselves, they discovered that they had also been able to find muons as well. When they looked at the data for the rest of the year after that, the scientists found that the number of muon measurements they had taken in the spring and summer of 2012 was down to 2 and 4 measurements respectively, which is far lower than the 2 and 4 they had used in previous years.

"The measurements of how many muons were in the ground that year were more significant than what we had actually measured at the start of the year," said Professor Daniel J. Janssens, Professor of Geosciences at UMass-Amherst, who is not involved in the research. "As a result, the measurements of that year were more significant than the measurements of the last year."

Janssens was not surprised, however, that GRAPES-3 had a significant impact on the muon picture. "We found that the measurements of the muon measurements from the early spring and summer of 2012 were significantly more significant than what we had measured at the time of the first observations of the year," he explained. The researchers were surprised when they discovered that the difference between the two was due to the fact that we had more muon data for the year than we had for the previous year, which is why the difference was so large.

"We were able to make a case that there had never been any increase in the amount of muon in the ground during the year as a whole," Janssens said. He added that GRAPES-3 is also designed to collect this type of data in a way that could make it possible to take new measurements without losing the significance of previous measurements.

"Since GRAPES-3 is being used to measure muons, we need to ensure that it is possible to take that data and compare it with the current data with which we've measured the muon," he said. "There are three main problems with this approach: it cannot be used to determine how close an object is to the Earth at the