MDCB Formulas + Memorization Questions with Complete Solutions

MDCB Formulas + Memorization Questions
with Complete Solutions

a source is leaking if ____ or more is detected 0.005 µCi




electron depth (cm) @ 90% isodose per energy ~E(MeV)÷4




electron depth (cm) @ 80% isodose per energy ~E(MeV)÷3




electron depth (cm) @ 10% isodose per energy ~E(MeV)÷2 - 0.5cm




maximum range of electrons per energy ~E(MeV)÷2




secular equilibrium's A(D)/A(P) = ? =1




transient equilibrium's A(D)/A(P) = ? = λ(D)÷[λ(D) - λ(P)]




half life of Cs-137 30 years

,half life of Ra-226 1600 years




half life of Co-60 5.26 years




half life of I-127 60 days




half life of Pd-103 17 days




half life of Ir-192 74 days




decay method of Ra-226 alpha decay




decay method of Cs-137 beta minus decay




decay method of Ir-192 electron capture, beta minus decay

,decay method of Au-192 beta minus decay




decay method of I-125 electron capture




decay method of Pd-103 electron capture




decay method of R-222 alpha decay




decay method of I-131 beta minus decay




decay method of Co-60 beta minus decay




exposure rate (gamma) constant for Ra-226 8.25 R·cm²/mg·hr


(in equilibrium with daughter products and filtered by 0.5 mm Pt)




exposure rate (gamma) constant for Cs-137 3.26 R·cm²/mCi·hr

, brachytherapy: exposure rate and dose rate (formulas) exposure rate = Γ · A/d², where


A = activity, d = distance from the source




dose rate = Sk · ∧ · G(r,θ) · F(r) · g(θ), where

Sk = air kerma strength

∧ = dose-rate constant

G(r,θ) = geometry factor

F(r) = anisotropy factor

g(θ) = radial dose function




brachytherapy: total dose for permanent implant, for temporary implant (formulas)

permanent implant total dose


D(total) = (initial dose rate)(mean life), where

mean life = t(avg) = 1.44(half life) = 1/λ, where

λ = decay constant




temporary implant total dose

D(total) = (inital dose rate)(mean life)[1-exp(-t/{mean life})]