41:8.1 In those [[suns]] which are encircuited in the [[space]]-[[energy]] [[channels]], [[solar energy]] is liberated by various [[complex]] [http://en.wikipedia.org/wiki/Nuclear_Reaction nuclear-reaction] chains, the most common of which is the hydrogen-carbon-helium reaction. In this [[metamorphosis]], carbon [[acts]] as an [[energy]] [[catalyst]] since it is in no way actually changed by this [[process]] of converting hydrogen into helium. Under certain conditions of high [[temperature]] the hydrogen penetrates the carbon [[nuclei]]. Since the [http://en.wikipedia.org/wiki/Carbon carbon] cannot hold more than four such protons, when this saturation state is [[attained]], it begins to emit protons as fast as new ones arrive. In this [[reaction]] the ingoing hydrogen [[particles]] come forth as a [http://en.wikipedia.org/wiki/Helium helium] [[atom]]. | 41:8.1 In those [[suns]] which are encircuited in the [[space]]-[[energy]] [[channels]], [[solar energy]] is liberated by various [[complex]] [http://en.wikipedia.org/wiki/Nuclear_Reaction nuclear-reaction] chains, the most common of which is the hydrogen-carbon-helium reaction. In this [[metamorphosis]], carbon [[acts]] as an [[energy]] [[catalyst]] since it is in no way actually changed by this [[process]] of converting hydrogen into helium. Under certain conditions of high [[temperature]] the hydrogen penetrates the carbon [[nuclei]]. Since the [http://en.wikipedia.org/wiki/Carbon carbon] cannot hold more than four such protons, when this saturation state is [[attained]], it begins to emit protons as fast as new ones arrive. In this [[reaction]] the ingoing hydrogen [[particles]] come forth as a [http://en.wikipedia.org/wiki/Helium helium] [[atom]]. |