Yes, all the energy of the sun is produced via Fusion of Hydrogen into Helium.
solar flares isfire
The spectrum of a solar prominence reveals information about the elements present in the gas, the temperature, density, and motions of the material within the prominence, as well as magnetic fields influencing its behavior. By studying the spectrum, scientists can gain insights into the physical properties and processes occurring in solar prominences.
a glacier melting slowly on a mountain top
solar storms the large bright loops are called solar flares solar prominence A+
The thermonuclear reactions in the Sun occur in its core, where hydrogen nuclei fuse to form helium nuclei. This process releases energy in the form of light and heat, which powers the Sun and sustains life on Earth. The most common reaction is the proton-proton chain reaction, where hydrogen nuclei collide to form helium-4 nuclei.
A fusion reaction.
solar flares isfire
The thermonuclear reaction in the sun produces vast amounts of energy through the fusion of hydrogen atoms.
Yes but it's hard to say
A typical prominence rises thousands of kilometers; the largest observed by the "Solar and Heliospheric Observatory" (SOHO) was some 350,000 km (216,000 miles) long.
A solar prominence
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The spectrum of a solar prominence reveals information about the elements present in the gas, the temperature, density, and motions of the material within the prominence, as well as magnetic fields influencing its behavior. By studying the spectrum, scientists can gain insights into the physical properties and processes occurring in solar prominences.
They both implode, explode and originate from the same surface.. a sunspot
It's called thermonuclear reaction.
These are not chemical reactions but thermonuclear reactions.
solar prominence.