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By: Evan A. Killilea Spring Seminar. Outline Nuclear Batteries Initial activity per unit mass Calculated activity in Curies(Ci) for 1 gram of pure Tritium.

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Presentation on theme: "By: Evan A. Killilea Spring Seminar. Outline Nuclear Batteries Initial activity per unit mass Calculated activity in Curies(Ci) for 1 gram of pure Tritium."— Presentation transcript:

1 By: Evan A. Killilea Spring Seminar

2 Outline Nuclear Batteries Initial activity per unit mass Calculated activity in Curies(Ci) for 1 gram of pure Tritium Initial power produced per unit mass Calculated mass of pure Tritium necessary to produce initial power of 1 nW from decay Power is time dependent Comparing energy produced in first year to the energy produced 5 years later

3 Nuclear Batteries Generates electricity by the decay of a radioactive isotope Betavoltaics Emitting beta particles to generate electricity Non-thermal conversion process Tritium symbol T 2 or 3 H 2 atomic mass of 3.0160492 u STP containing one proton and two neutrons 12.32 years Decay energy 0.018590 MeV Extremely long life and high energy density

4 Activity Decay rate Radioactive Decay Equation A=A o e -λt A= current amount of radioactivity A o = initial amount of radioactivity λ =Decay constant - represents the average number of decays occurring per unit time = ln(2)/T 1/2

5 Number of Radioactive Nuclei Radioactive Decay Equation N=N o e -λt N= current number of radioactive nuclei N o = Initial of radioactive nuclei λ =Decay constant - represents the average number of decays occurring per unit time = ln(2)/T 1/2

6 Initial Activity A o α N o Initial amount of radioactivity α initial number of radioactive nuclei A o = initial amount of decay rate N o = Initial of radioactive nuclei λ =Decay constant - A o = λ N o

7 Initial Activity per Unit Mass

8 Tritium

9 Initial Power

10 Power Time Dependent

11 Conclusion

12 References K. Heyde, Basic Ideas and Concepts in Nuclear Physics, (IOP, Bristol, 1994). K. S. Krane, Introductory Nuclear Physics, (Wiley, New York, 1988). D. Lal and H. Suess, “The Radioactivity of t he Atmosphere and Hydrosphere,” Ann.Rev. Nucl. Sci. 18, 407 (1968).

13 Questions??

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