tozhan said:Whats the lastest ideas on Cold Fusion then?? i just read some stuff on the Fleischmann and Pons work and it appears it was never rejected and yet i havnt heard of any research being conducted ATM. I thought the Fleischmann and Pons work produced 50%+ more energy than put in? this would make it a very worthwhile source of energy! what's going on here?
A great book! (And Bob Park is hilarious.)ZapperZ said:Please read Bob Park's book "Voodoo Science".
Fusion is a process in which two or more atomic nuclei combine to form a heavier nucleus. This process releases a large amount of energy, and it is the same process that powers our sun. In order for fusion to occur, the nuclei must overcome their natural repulsion and come close enough together for the strong nuclear force to bind them together.
Fusion is the process of combining two or more nuclei to form a heavier nucleus, while fission is the process of splitting a heavy nucleus into two or more smaller nuclei. In fusion, energy is released when the nuclei combine, while in fission, energy is released when the nuclei split. Additionally, fusion only occurs at extremely high temperatures and pressures, while fission can occur at lower temperatures.
Cold fusion is a hypothetical form of nuclear reaction in which fusion occurs at or near room temperature. However, there is currently no scientific evidence to support its existence. While cold fusion has been a topic of research and speculation for decades, it has not been proven to be a reliable source of energy.
Fusion has the potential to provide a nearly limitless source of clean energy. It produces no greenhouse gases, no radioactive waste, and does not rely on depletable resources like fossil fuels. Additionally, fusion reactions release a large amount of energy, making it a highly efficient source of energy.
The main challenge in achieving practical fusion energy is the extreme conditions required for fusion to occur. This includes high temperatures and pressures, as well as the ability to contain and control the fusion reaction. Scientists are also working to develop materials that can withstand the intense conditions inside a fusion reactor. Additionally, there are still many technical and engineering challenges to overcome before fusion can be harnessed as a reliable source of energy.