0.03
The percentage of the original quantity of a radioactive material left after five half lives is approximately 3%
41290
After 1600yrs - 0.5 decayed, 0.5 left After 3200 yrs - there's 0.5 left, so you need to take half of that, i.e. a further 0.25 of the initial sample would have decayed. so total decayed = 0.75, total undecayed = 0.25 After 4800 - half of the 0.25 left will decayed, i.e. a further 0.125 of initial sample will decay. so total decayed = 0.75 + 0.125 = 0.875 of initial sample = 7/8 b) 6400 yrs is a further half life (from part a). After 4800 yrs, 1/8 is left, so after another half life, 1/16 will be left
only between light nuclei
Nuclear fusion is possible only between light nuclei
both
It uses both fission and fusion
packing fraction
The ratio of the total volume of a set of objects?packed?into a space to the volume of that space. The difference between the isotopic mass of a nuclide and its mass number, divided by its mass number. The?packing fraction?is often interpreted as a measure of the stability of the nucleus.