The sun burns helium to produce hydrogen gas through the process of nuclear fusion.
The sun utilizes nuclear fusion to convert hydrogen into helium at its core. This process releases a tremendous amount of energy in the form of light and heat, which is essential for sustaining life on Earth.
When the sun burns hydrogen into helium through nuclear fusion, it releases energy in the form of light and heat. This process is what powers the sun and sustains life on Earth.
The sun burns hydrogen as fuel through a process called nuclear fusion. This process involves the fusion of hydrogen atoms to create helium, releasing energy in the form of light and heat.
The Sun uses the energy produced from converting hydrogen into helium through nuclear fusion to generate heat and light. If the Sun had no helium, it wouldn't be able to sustain this fusion process, leading to a lack of energy production and a collapse in the Sun's structure. Helium plays a crucial role in the fusion reactions that occur in the Sun, contributing to the high temperatures and pressures required to sustain nuclear fusion.
The sun burns helium to produce hydrogen gas through the process of nuclear fusion.
no it has hydogen and helium but it makes heat and light
light and heat
The sun utilizes nuclear fusion to convert hydrogen into helium at its core. This process releases a tremendous amount of energy in the form of light and heat, which is essential for sustaining life on Earth.
When the sun burns hydrogen into helium through nuclear fusion, it releases energy in the form of light and heat. This process is what powers the sun and sustains life on Earth.
Expand and lift off into space.
The Sun gets its energy from nuclear fusion, converting hydrogen-1 to helium-4.
The sun burns hydrogen as fuel through a process called nuclear fusion. This process involves the fusion of hydrogen atoms to create helium, releasing energy in the form of light and heat.
The Sun uses the energy produced from converting hydrogen into helium through nuclear fusion to generate heat and light. If the Sun had no helium, it wouldn't be able to sustain this fusion process, leading to a lack of energy production and a collapse in the Sun's structure. Helium plays a crucial role in the fusion reactions that occur in the Sun, contributing to the high temperatures and pressures required to sustain nuclear fusion.
The sun is approximately 9/10 hydrogen. As it burns, helium is created. The longer this process goes on, the hydrogen will eventually get consumed.
Hydrogen and Helium.
Hydrogen and helium make up the majority of the sun's mass, with hydrogen accounting for about 74% and helium for about 24%. Other elements like oxygen, carbon, and nitrogen make up less than 2% of the sun's mass.