These are called prominences
Huge arching columns of gas extending from the surface of the sun are known as solar prominences. These prominences are massive loops of plasma held above the sun's surface by magnetic fields, and they can extend thousands of kilometers into space.
An arched eruption of gas from the sun's surface is called a solar prominence. These immense looping structures of cooler, denser plasma can extend thousands of miles into space and are typically caused by the sun's magnetic field. Solar prominences are easily seen during solar eclipses, highlighting the sun's dynamic and active nature.
I honestly don't know what you're asking.You're right.But, if you were asking what the arching columns of gas were called, then it would be prominences.Next time write your question correctly.
Solar prominences are bright red or reddish-pink clouds of glowing hydrogen gas that form above the sun's surface. They are large and often loop-shaped structures that are held above the sun's surface by magnetic fields.
A loop of relatively cool gas on the surface of the sun is known as a solar prominence. These features are composed of ionized gas, or plasma, and are often observed as large, bright arcs or loops that extend outward from the sun's surface. Solar prominences are held in place by the sun's magnetic fields and can last for days or weeks before dissipating or collapsing back to the sun's surface. They are typically cooler than the surrounding solar atmosphere, which contributes to their distinct appearance.
They are called prominences.
Yes, magnetic fields can pass through gases. However, the strength and interaction of the magnetic field with the gas will depend on factors such as the type of gas, its density, and the strength of the magnetic field.
Yes, plasma is a state of matter. It is an excited gas susceptible to magnetic and electric fields.
Yes, plasma is a state of matter. It is an excited gas susceptible to magnetic and electric fields.
Huge arching columns of gas extending from the surface of the sun are known as solar prominences. These prominences are massive loops of plasma held above the sun's surface by magnetic fields, and they can extend thousands of kilometers into space.
No. A sunspot is a slightly cooler area of the surface associated with magnetic disturbances within the Sun. The eruptions of gas are called prominences, and they are related to the phenomenon called solar flares.
Both contain large numbers of stars, plus dust, gas, and magnetic fields.
A gas fired power station burns gas to heat water to generate steam to turn turbines to turn coils of wire in magnetic fields to generate electricity. (That should be a record number of verbs used in one sentence ;-) A coal fired power station burns coal to heat water to generate steam to turn turbines to turn coils of wire in magnetic fields to generate electricity. A nuclear power station uses the heat of nuclear reactions to heat water ... A hydro power station uses falling water to turn turbines to turn coils of wire in magnetic fields to generate electricity. A wind turbine uses the wind to turn coils of wire in magnetic fields to generate electricity.
A gas fired power station burns gas to heat water to generate steam to turn turbines to turn coils of wire in magnetic fields to generate electricity. (That should be a record number of verbs used in one sentence ;-) A coal fired power station burns coal to heat water to generate steam to turn turbines to turn coils of wire in magnetic fields to generate electricity. A nuclear power station uses the heat of nuclear reactions to heat water ... A hydro power station uses falling water to turn turbines to turn coils of wire in magnetic fields to generate electricity. A wind turbine uses the wind to turn coils of wire in magnetic fields to generate electricity.
The eruption of 1985 produced gas and ash.
Prominences are arcs of glowing gas that are anchored to the Sun's surface by magnetic fields. They are caused by the interaction between the Sun's magnetic field and its plasma atmosphere. Plasma flows along the magnetic field lines, giving rise to the appearance of solar prominences.
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