It has to be at hundreds of millions of degrees kelvin, before a fusion reaction between deuterium and tritium will start
well it occurs in the core of the sun, and it travels because it is shot out of the sun because it has too much pressure.
Solar neutrinos are electron neutrinos that are in the sun. The sun is what produces nuclear fusion.
At the core of a star, the sun for example, the pressure due to gravity is greatest and gives the best conditions for fusion to start. Heat then flows outwards in all directions from the core.
The Sun gets its energy from nuclear fusion. Mainly, converting hydorgen-1 into helium-4.
through nuclear reactions that occur at the core of the sun. it radiates that energy until it reaches the earth.
The innermost layer of the sun is called the core. It is where nuclear fusion reactions occur, generating the energy that powers the sun's immense heat and light.
Nuclear fusion occurs in the solar core.
yes nuclear fusion does occur on the sun, creating intense heat and light
Sun
The core of the Sun is the layer that contains the densest material. It is where nuclear fusion reactions occur, resulting in high temperatures and pressures, which contribute to the density of the core.
Nuclear fusion is the process that powers stars, such as our sun.
High temp and pressure
No, the sun's corona appears to glow due to the extreme heat and energy produced by the sun's core through nuclear fusion. The corona is the outermost layer of the sun's atmosphere and is much hotter than the surface layer, giving it its distinctive glow.
Yes, the sun is a nuclear fusion reactor.
The rest of the sun is too cold and too low pressure.
Nuclear fusion in the sun occurs when hydrogen atoms combine to form helium atoms. This process releases large amounts of energy in the form of photons. The intense pressure and temperature in the sun's core create the conditions necessary for nuclear fusion to occur.
No, while it is hot enough the pressure is too low.