the deuteron supply of the star is exhausted in a time of the order of

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A star initially has 10^40 deuterons. It produces energy via the processes 1H^2+1H^2→1H^3+p and 1H^2+1H^3→2He^4+n. If the average power radiated by the star is 10^16 W, the deuteron supply of the star is exhausted in a time of the order of
15
Sep
A star initially has 10^40 deuterons. It produces energy via the processes 1H^2+1H^2→1H^3+p and 1H^2+1H^3→2He^4+n. If the average power radiated by the star is 10^16 W, the deuteron supply of the star is exhausted in a time of the order of A star initially has 10^40 deuterons. It produces energy via the processes 1H^2+1H^2→1H^3+p and [...]
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Tags: A star initially has 10^40 deuterons. It produces energy via the processes 1H^2+1H^2→1H^3+p and 1H^2+1H^3→2He^4+n. If the average power radiated by the star is 10^16 W , the deuteron supply of the star is exhausted in a time of the order of ,
A star initially has 10^40 deuterons. It produces energy via the process 2H1 + 2H1 gives 3He1 + p and 2H1 + 3H1 gives 4He2 + n . If the average power radiated by the star is 10^16 W, the deuteron supply of the star is exhausted in a time of the order of
17
Oct
A star initially has 10^40 deuterons. It produces energy via the process 2H1 + 2H1 gives 3He1 + p and 2H1 + 3H1 gives 4He2 + n . If the average power radiated by the star is 10^16 W, the deuteron supply of the star is exhausted in a time of the order of A [...]
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Tags: A star initially has 10^40 deuterons. It produces energy via the process 2H1 + 2H1 gives 3He1 + p and 2H1 + 3H1 gives 4He2 + n . If the average power radiated by the star is 10^16 W , the deuteron supply of the star is exhausted in a time of the order of ,