Interior of the sun.
The centre or core of the star.
the sun
No, while it is hot enough the pressure is too low.
No, normally it occurs at temperatures of millions of degrees. It does occur at room temperature, but not in significant amount; any possible practical use of "cold fusion" is, so far, speculation.
No place, we have not yet determined how to make a fusion reactor. Only fusion bombs.
Nuclear fusion takes place only in the core of the Sun, or any star. Extremely high energy (temperatures) are required to force atomic nuclei together. The fusion reaction releases heat energy, which continues the fusion of other nuclei.
Nuclear fusion occurs in the solar core.
Gravity compresses gases at the center of a solar nebula until temperatures are high enough for nuclear fusion to occur
For nuclear fusion.
No, while it is hot enough the pressure is too low.
No, normally it occurs at temperatures of millions of degrees. It does occur at room temperature, but not in significant amount; any possible practical use of "cold fusion" is, so far, speculation.
fusion
nuclear fusion is not a natural occurrence, it is when two atoms are fused together
No place, we have not yet determined how to make a fusion reactor. Only fusion bombs.
Gravity compresses gases at the center of a solar nebula until temperatures are high enough for nuclear fusion to occur.
Nuclear fusion takes place only in the core of the Sun, or any star. Extremely high energy (temperatures) are required to force atomic nuclei together. The fusion reaction releases heat energy, which continues the fusion of other nuclei.
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Nuclear fusion occurs in the solar core.
Low mass stars are created in the same way as all other stars, with one exception. They do not accumulate enough mass to create enough pressure in the core for nuclear fusion to occur. They "glow" because of the external pressure on the core but this is not enough to initiate nuclear fusion.