![cosmic rays cosmic rays](https://cdn.mos.cms.futurecdn.net/nYJ6La2wshofbymeWdJVEA-1200-80.jpg)
The source for these very energetic particles, however, is still unknown. Scientists suspect other large structures such as active galactic nuclei or colliding galaxies might be candidate objects which produce or accelerate these cosmic rays.
![cosmic rays cosmic rays](https://scx2.b-cdn.net/gfx/news/hires/2019/cosmicrays.jpg)
Still, it is difficult to explain the existence of cosmic rays above 10 16 eV, because supernovae are simply not large enough to maintain acceleration for Ultra High Energy particles. Cosmic rays are high energy charged particles, originating in outer space, that travel at nearly the speed of light and strike the Earth from all directions. The most well known of these are supernova remnants, which have long been suspected to generate cosmic rays. The leading candidates for the source of Ultra High Energy cosmic rays are large, energetic structures where strong shocks are expected to be found. For the highest energy cosmic rays, above 10 16 eV or what is called the "Ankle," the rate of events falls to one per square kilometer per century. Particles with intermediate energy levels, around what is called the "Knee" of the spectrum, are called Very High Energy cosmic rays and they occur with a frequency of one per square meter per year. On arrival at the Earth, their path experiences less bending in the magnetic field and they penetrate deeper into the atmosphere. Common batteries (such as a D-cell) have a potential of 1.5 volts, so a single electron through a regular battery will gain 1.5 eV.Īs the energy of the cosmic rays increases, the frequency of the particles decreases steeply. One eV is the amount of energy gained by a single electron when passing through an electric potential of one volt. The basic unit of measurement used in discussing the energy of a cosmic ray is the electronvolt, or eV. They originate from the Sun, from outside of the Solar System in our own galaxy, and from distant galaxies. We are shielded from most of the low energy particles by their interaction with the Earth's atmosphere and magnetic field. Cosmic rays are high-energy protons and atomic nuclei that move through space at nearly the speed of light. These particles originate from sources close to Earth such as the Sun. At the lowest energies, cosmic radiation is very common.
![cosmic rays cosmic rays](https://www.scienceabc.com/wp-content/uploads/2017/05/air-shower-cosmic-rays.jpg)
This is observed as Aurora, or the Northern/Southern Lights.Ĭosmic rays arrive with a variety of energies. When these solar particles interact with the Earth's magnetic field, they tend to spiral into the Earth's magnetic poles where they excite the gas in the atmosphere causing it to glow. For example, during a solar flare many particles are ejected from the Sun. The lowest energy cosmic rays are produced by ordinary stars like the Sun. Cosmic rays are energetic, subatomic particles that arrive from outside the Earth's atmosphere.