In the sun's core, nuclear fusion occurs where hydrogen atoms combine to form helium atoms. This fusion process releases a large amount of energy in the form of photons (light and heat). This energy is then radiated outwards from the sun.
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Energy is produced in the sun's core through nuclear fusion, where hydrogen atoms combine to form helium, releasing a tremendous amount of energy in the process. The high temperatures and pressures in the core of the sun provide the conditions necessary for nuclear fusion to occur.
nuclear fusion reactions at the core of sun
The energy produced by the fusion of hydrogen atoms into helium in the sun's core is what generates the heat and light emitted by the sun. This process releases energy in the form of electromagnetic radiation, which includes visible light and heat.
Energy is transferred through the sun's interior via radiation, which occurs in the form of electromagnetic waves. This energy mainly travels through the radiative zone of the sun. Additionally, energy is also transferred through convection, where hot plasma rises from the sun's core towards the surface, cools down, and then sinks back towards the core in a continuous cycle.
In the Sun's core.
In the Sun's core.
In the core
Core of the sun.
At the core where the fuel is burning
The energy in the Sun is primarily produced in the core, where nuclear fusion reactions convert hydrogen into helium, releasing vast amounts of energy in the process. This energy then travels outward through the Sun's layers before being emitted as sunlight into space.
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the suns heat light and energy comes from the core of the sun and travels trough space
The nuclear reactions in the Suns core
it goes into the inner core.
Fart