it only takes place at high temperature
The main challenges with nuclear fusion technology include the difficulty of containing and controlling the high temperatures and pressures required for fusion reactions, the limited availability of fuel sources, and the high costs associated with research and development. Additionally, there are concerns about the potential for accidents and the long-term management of radioactive waste.
The main challenges in developing and implementing nuclear fusion technology include achieving sustained fusion reactions, managing high temperatures and pressures, and finding materials that can withstand the harsh conditions. Additionally, funding and political support are crucial for advancing research and overcoming technical hurdles. Addressing these challenges requires collaboration among scientists, engineers, and policymakers to ensure progress in nuclear fusion technology.
yes you can
It requires almost as much energy to create nuclear fusion as the energy it creates. :)
You can harvest ALOT of energy from it.
Yes.
In your own main phase 1 or main phase 2.
A red main sequence star would be a red dwarf or a branch red giant. To be on the main sequence, you have to have hydrogen nuclear fusion.
Nuclear fusion is the source of the sun's energy.
The main type of fusion happening in the sun is proton-proton fusion. This process involves hydrogen nuclei (protons) combining to form helium nuclei, releasing energy in the form of gamma rays and neutrinos.
The main-sequence lifetime is a phase in a star's life when it fuses hydrogen into helium in its core. This phase typically lasts about 90% of a star's total fusion lifetime. After the main sequence, a star may continue to fuse other elements, depending on its mass, which will determine the total duration of its fusion lifetime.
nuclear fusion