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The bright halo of sun's atmosphere visible during full eclipse?
The bright halo of the sun's atmosphere visible during a full eclipse is known as the solar corona. It consists of plasma released from the sun's outer layer and is only visible during a total solar eclipse when the moon completely blocks the sun's disk, revealing this outer layer. The corona appears as a shimmering halo of white light extending far beyond the sun's visible edge.
What are three parts of the sun's atmosphere?
Photosphere: the visible surface of the sun where sunlight is emitted. Chromosphere: a layer above the photosphere that emits reddish light and is usually visible during solar eclipses. Corona: the outermost layer of the sun's atmosphere that extends millions of kilometers into space and is only visible during a solar eclipse.
What layer of the sun's atmosphere reaches farthest into space?
The layer of the sun's atmosphere that reaches farthest into space is called the Corona.
The light you see around the sun during a total eclipse?
The light seen around the sun during a total solar eclipse is the sun's outer atmosphere, known as the corona. The corona appears as a shimmering ring of light due to the sun's intense heat and magnetic fields. This phenomenon is only visible during a total solar eclipse when the moon completely covers the sun, revealing the sun's outer atmosphere.
The layer of the solar atmosphere directly above the photosphere is referred to as the?
chromosphere. It is a thin layer of the sun's atmosphere located directly above the photosphere. The chromosphere is visible during solar eclipses as a reddish ring around the sun.
Which part of the suns atmosphere become visible during an eclipse?
Corona
What is bright halo of sun's atmosphere visible during full eclipse?
The Corona.
Which part of the suns atmosphere is visible during a solar eclipse?
Science is gay!
What is the visible portion of the sun during an eclipse?
The corona, which is the sun's plasma 'atmosphere'.
What extended part of the sun's atmosphere is visible only during a total solar eclipse?
The corona.
The bright halo of sun's atmosphere visible during full eclipse?
The bright halo of the sun's atmosphere visible during a full eclipse is known as the solar corona. It consists of plasma released from the sun's outer layer and is only visible during a total solar eclipse when the moon completely blocks the sun's disk, revealing this outer layer. The corona appears as a shimmering halo of white light extending far beyond the sun's visible edge.
What are three parts of the sun's atmosphere?
Photosphere: the visible surface of the sun where sunlight is emitted. Chromosphere: a layer above the photosphere that emits reddish light and is usually visible during solar eclipses. Corona: the outermost layer of the sun's atmosphere that extends millions of kilometers into space and is only visible during a solar eclipse.
What part of the sun is seen during a solar eclipse?
The corona.
What is the connection between comets and meteoroids?
Meteroids could contain debris left by a comet, especially during a meteor shower.
Why does the sky seem black on the moon?
Because the Moon has no atmosphere, there is no reaction of molecules to the Sun's rays, as there is on Earth during the daytime. If the Earth had no atmosphere, the stars would be visible all the time.
What layer of the sun's atmosphere is visible during a total solar eclipse?
The outermost layer of the sun is the corona. Only visible during eclipses, it is a low density cloud of plasma with higher transparency than the inner layers.
Without an atmosphere would there be light all the time?
AnswerThe light comes to us from the sun, moon and stars.Without an atmosphere, there would still be light from the sun during daylight hours. The stars are not visible during the daytime because the light from the sun is scattered through the atmosphere and conceals the much fainter light of the stars, so without an atmosphere the stars would be visible both day and night. The moon reflects light to us from the sun, and would continue to do so even without an atmosphere.
