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Going Nuclear: Notes from the officially unofficial book tour
I work in the analytical labs at one of Europe’s oldest and largest nuclear sites: Sellafield, in northwestern England. I spend my days at the fume hood front, pipette in one hand and radiation probe in the other (and dosimeter pinned to my chest, of course). Outside the lab, I have a second job: I moonlight as a writer and public speaker. My new popular science book—Going Nuclear: How the Atom Will Save the World—came out last summer, and it feels like my life has been running at full power ever since.
J. E. Morel, J. M. McGhee
Nuclear Science and Engineering | Volume 132 | Number 3 | July 1999 | Pages 312-325
Technical Paper | doi.org/10.13182/NSE132-312
Articles are hosted by Taylor and Francis Online.
The traditional second-order self-adjoint forms of the transport equation are the even- and odd-parity equations. A useful alternative to these equations exists in the form of a second-order self-adjoint equation that has the angular flux as its unknown. The numerical advantages and disadvantages of this equation are contrasted both theoretically and computationally with those of the even- and odd-parity equations.
