When the Aurora Borealis happen, they can be seen from the Aleutian Islands.
yes and no.
All the time. Visible mostly in winter because that is when the sky is darkest.
Aurora is not restricted to nighttime. Aurora occurs persistently.It's best visible at night, however, even in Antarctica.Read more about aurora by following the link, below.
An Aurora Australis or an Aurora Borealis occurs when streams of particles from the sun's solar winds hit the earth's atmosphere at an angle (as can only happen at the poles). These particles interact with the edges of the earth's magnetic field and when they collide with the gases in the ionosphere, the particles glow creating curtains of blue, green and magenta. An aurora is sometimes accompanied by a crackling sound.
The Aurora Borealis is not something like a total eclipse of the sun - that happens once in a handful of years. The auroras happen nightly , it just depends on how far North you are. If you live in Chicago, it's a very rare night you would see the Aurora. If you live in northern Finland, it's a rare night you wouldn't see it.
An Aurora Australis or an Aurora Borealis occurs when streams of particles from the sun's solar winds hit the earth's atmosphere at an angle (as can only happen at the poles). These particles interact with the edges of the earth's magnetic field and when they collide with the gases in the ionosphere, the particles glow creating curtains of blue, green and magenta. An aurora is sometimes accompanied by a crackling sound.
An Aurora Australis or an Aurora Borealis occurs when streams of particles from the sun's solar winds hit the earth's atmosphere at an angle (as can only happen at the poles). These particles interact with the edges of the earth's magnetic field and when they collide with the gases in the ionosphere, the particles glow creating curtains of blue, green and magenta. An aurora is sometimes accompanied by a crackling sound. Both aurora appear around the polar regions. The Aurora Australis appears around Antarctica and the Aurora Borealis appears around the Arctic.
Scientists observed disruption of a the magnetic needle of a compass by the electromagnetic interference by Aurora Borealis which reflected perfect direction that coincided with the view of the phenomena. It was concluded this would only happen if electric currents were setting from south to north in the earth under the needle, or from north to south in space above it.
Scientists observed disruption of a the magnetic needle of a compass by the electromagnetic interference by Aurora Borealis which reflected perfect direction that coincided with the view of the phenomena. It was concluded this would only happen if electric currents were setting from south to north in the earth under the needle, or from north to south in space above it.
No. St. Elmo's Fire is caused by a discharge of atmospheric electricity. An Aurora Australis or an Aurora Borealis occurs when streams of particles from the sun's solar winds hit the earth's atmosphere at an angle (as can only happen at the poles). These particles interact with the edges of the earth's magnetic field and when they collide with the gases in the ionosphere, the particles glow creating curtains of blue, green and magenta. An aurora is sometimes accompanied by a crackling sound.
The aurora is a glow observed in the night sky, usually in the polar zone. For this reason some scientists call it a "polar aurora" (or "aurora polaris"). In northern latitudes, it is known as "aurora borealis" which is Latin for "northern dawn" since in Europe especially, it often appears as a reddish glow on the northern horizon as if the sun were rising from an unusual direction. The aurora borealis is also called the "northern lights". The aurora borealis most often occurs from September to October and March to April. Its southern counterpart, "aurora australis", has similar properties. The cause of the aurora is charged particles from the solar wind, accelerated by the Earth's magnetic field, colliding with atoms in the upper atmosphere causing them to glow as they release their surplus energy.