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The previous answer didn't help. What formulas (derivations) were used to solve this? Calculate the hot particle beta skin dose rate in Gy/Sec for a

The previous answer didn't help. What formulas (derivations) were used to solve this?

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Calculate the hot particle beta skin dose rate in Gy/Sec for a 0.1 Bq particle of 98Tc on the arm. The decay scheme of 98Tc is attached. 43-TECHNETIUM-98 y(i) E(i) Radiations (Bq-s)-1 (MeV) y(i)xE(i) B-1 1.00 1.185x10-01* 1.19x10-01 y 1 1.00 6.524x10-01 6.52x10-01 ce-K, y 1 2.21x10-03 6.303x10-01 1.39x10-03 ce-L, y 1 2.65x10-04 Decay Scheme 6.492x10-01a 1.72x10-04 ce-M. y 1 4.85x10-05 (6)+ 6.518*10-0la 3.16*10-05 0.0 4.2x10 y Intensities: I(y+ce) Y 2 1.02 7.454x10-01 7.60*10-01 98TC55 per 100 parent decays ce-K, y 2 1.60*10-03 7.232x10-01 1.15x10-03 *B-=100 ce-L, y 2 1.89*10-04 7.421*10-01a 1.40*10-04 Q"(g.s.)=1796 ce-M, Y 2 3.46*10-05 7.448x10-01a 2.58x10-05 745.35 102 Kal X-ray EB- 1.65x10-03 IB- 1.928x10-02 Log ft 3.18x10-05 100 397 Ka2 X-ray 100 8.69*10-04 14.02 1.915*10-02 1397.77 1.66*10-05 652.41 KB X-ray 5.15x10-04 2.170*10-02* 1.12x10-05 2+ L X-ray 652.41 1.93x10-04 2.560*10-03* 4.94x10-07 Auger-K 7.75x10-04 1.620*10-02* 1.26*10-05 0.0 Auger-L 4.07x10-03 2.530*10-03* 1.03x10-05 Ru54 Listed X. y. and y Radiations 1.41 Listed B, ce, and Auger Radiations 1.21*10-01 Listed Radiations 1.53 * Average Energy (Me V). a Maximum Energy (MeV) for subshell. Ruthenium-98 Daughter is stable

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