WebbThe solution of Eq. ( 7.5) yields the formula generally referred to as the exponential law of radioactive decay: N= N (0) { {\rm e}^ { - \lambda t}}, (7.6) where N (0) is the number of radioactive atoms present at t = 0. WebbThe reaction yield is about 2% of the radium weight. 227 Ac can further capture neutrons resulting in small amounts of 228 Ac. After the synthesis, actinium is separated from …
The radioactive decay constant of 3890 S r is 7.88 × 10-10 s-1.
WebbThe radioactive decay constant of 3890S r is 7.88 × 10−10 s−1. The activity of 15mg of this isotope will be 1644 56 AMU AMU 2011 Report Error A 1.5 Ci B 2.13 Ci C 7.88 Ci D 8.76 Ci Solution: Activity λ.N = 7.88 × 10−10 × 9015×10−3 × 6.023× 1023 = 7.91 × 10−10dps = 3.7×10107.91×1010 = 2.13C i WebbThe activity of a sample of 31Si (T1/2 = 9.43 103 s) is 7.88 105 decays per second. What is the mass of sample present? The activity of a sample containing radioactive {108}Ag is 6.4 x 10^4... pennington choices login
The radioactive decay constant of 3890 Sr is 7.88×10−10 s−1.
WebbNeovascularization is the pathological driver of blinding eye diseases such as retinopathy of prematurity, proliferative diabetic retinopathy, and wet age-related macular degeneration. The loss of vision resulting from these diseases significantly WebbThe radioactive decay constant of 3890Sris7.88×10 −10s −1. The activity of 15 mg of this isotope will be. A 1.5Ci B 2.13×10 3Ci C 7.88Ci D 8.76ci Medium Solution Verified by Toppr Correct option is B) Moles n= 90gm/mole15gm = 61mole where 90 is the mass number Number of Nuclei N=nN a= 66.023×10 23=1.004×10 23 pennington choices reviews