Sunday , July 3 2022

The moon shines very brightly at the NASA Farm



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The moon shines very brightly at the NASA Farm
Photo: Shining moon

Reportasee.com, – The moon shines brightly on the NASA Fermi. It can be said that it is a range of rays emanating from high energy radiation.

According to the ScienceDaily report, on Friday (08/16/2019) the moon will look brighter than the sun. Such was the catch of NASA's Fermi Space Telescope over the past decade.

Gamma ray monitoring is not sensitive enough to clearly see the shape of the lunar disk or any surface characteristics. Instead, NASA's Large Area Telescope (LAT) detects visible light and focuses on the position of the moon in the sky.

Scientists at the National Institute of Nuclear Physics, Italy, Mario Nicolas Maziotta and Francesco Loparco have analyzed gamma rays as a way to understand other types of radiation from space.

In this analysis, cosmic rays
play an important role in the emergence of the phenomenon.

"Most cosmic rays
are protons that are accelerated by some of the most energetic phenomena in nature
The universe, like the collapsing waves of exploding stars and jets
produced when the material gets into a black hole, ”Maziotta explained.

Cosmic rays against the moon

Particles of cosmic rays
electrically charged, they are affected by magnetic fields. As a result, the rays
Low energy is able to reach a surface that can turn the moon into one of the particle-based detectors
useful space.

When the cosmic rays hit, they are
interact to produce gamma rays.

Maziotta and Loparco
analyze these observations through NASA's Fermi LAT to show
how that look improves during interaction.

They collect data against
a range of beams with energy exceeding 31 million electronic volts (10 million times greater
of visible light energy). The rays adjust them in time and show
how long the exposure increases vision.

Sinar Gamma on the Moon

While the gamma rays are very surprising and impressive, the Sun shines brighter with energy of more than 1 billion electron volts.

The lower-energy cosmic rays do not reach the Sun because its strong magnetic field filtered them.

However, far more energetic cosmic rays can penetrate this magnetic shield and attack the denser atmosphere of the sun. This produces a range of rays that can reach the Fermi. ***

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