Use the Runge-Kutta method to evaluate for the decomposition of 131I. The time range is from t = 0 days to t = 12 days. The increment of time is 0.5 days. The decay constant, λ, of 131I is 9.4982E-7 s-1. The initial mass of the sample of 131I is 55.8 μg. The isotope mass is 130.91g/mol. Avogadro’s constant is 6.022x1023.
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Use the Runge-Kutta method to evaluate for the decomposition of 131I. The time range is from t = 0 days to t = 12 days. The increment of time is 0.5 days. The decay constant, λ, of 131I is 9.4982E-7 s-1. The initial mass of the sample of 131I is 55.8 μg. The isotope mass is 130.91g/mol. Avogadro’s constant is 6.022x1023.
Explanation:
Use the Runge-Kutta method to evaluate for the decomposition of 131I. The time range is from t = 0 days to t = 12 days. The increment of time is 0.5 days. The decay constant, λ, of 131I is 9.4982E-7 s-1. The initial mass of the sample of 131I is 55.8 μg. The isotope mass is 130.91g/mol. Avogadro’s constant is 6.022x1023.
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