EBK INTRODUCTION TO HEALTH PHYSICS, FIF
EBK INTRODUCTION TO HEALTH PHYSICS, FIF
5th Edition
ISBN: 9780071835268
Author: Johnson
Publisher: VST
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Chapter 4, Problem 4.42P
To determine

The activity of each Uranium isotope in 1g HEU in Bq and Ci in Highly enriched uranium (HEU) which contains 1.5% U-4, 93.5% U-5.0% U-8 as percentages by weight.

Expert Solution
Check Mark

Answer to Problem 4.42P

Activity of U-4

  A234=3.4355×105BqA234=0.9285×105Ci

Activity of U-5

  A235=7.4568×104BqA235=2.0153×106Ci

Activity of U-8

  A238=0.62×103BqA238=0.16756×107Ci

Explanation of Solution

Given:

  1.5% U-4, 93.5% U-5, 5.0% U-8. Percentages are by weight.

  Avogadro's Constant=6.022×1023mol-1

Formula used:

  A=λNA = Activity in becquerel (Bq)N = The number of undecayed nucleiλ= Decay constant (s-1)λ=0.693HalflifeN=massAtomicmass×avogadro's Constant

Calculation:

Decay Constant of each Uranium isotope.

  λ=0.693Halflife

Half-life of U234=246,000years

  λ234=0.693246,000×365.25×24×3600sλ234=0.6937.76× 10 12λ234=0.089×1012s1

Half-life of U235=704million years

  λ235=0.693704,000,000×365.25×24×3600 sλ235=0.6932.22× 10 16λ235=0.312×1016s-1

Half-life of U238=4.46billionyears

  λ238=0.6934,460× 106×365.25×24×3600sλ238=0.6931.407× 10 17λ238=0.492×1017s-1

The number of undecayed nuclei

  N=massAtomicmass×avogadro's Constant

  avogadro's Constant=6.022×1023mol-1

  N234Atomicmass=234gmole1

  N=massAtomicmass×avogadro's ConstantN234=1g234g/mole×1.5100×6.022×1023mole1N234=0.0386×1021

  N235Atomicmass=235gmole1

  N=massAtomicmass×avogadro's ConstantN235=1g235g/mole×93.5100×6.022×1023mole-1N235=0.0239×1023N235=23.9×1020

  N238Atomicmass=238gmole1

  N=massAtomicmass×avogadro's ConstantN238=1g238g/mole×5100×6.022×1023mole-1N238=0.00126×1023N238=1.26×1020

Activity of each Uranium isotope.

Activity of U-4

  A234=λNA234=0.089×1012s1×0.0386×1021A234=0.0034×109A234=3.4355×106decayspersecondA234=3.4355×106BqA234=3.4355×106decayssecond×1Curie3 .7×10 10 decays secondA234=0.9285×10-4Ci

Activity of U-5

  A235=λNA235=0.312×1016s1×23.9×1020A235=7.4568×104decayspersecondA235=7.4568×104BqA235=7.4568×104decayssecond×1Curie3 .7×10 10 decays secondA235=2.0153×10-6Ci

Activity of U-8

  A238=λNA238=0.492×1017s1×1.26×1020A238=0.62×103decayspersecondA238=0.62×103BqA238=0.62×103decayssecond×1Curie3 .7×10 10 decays secondA238=0.16756×10-7Ci

Conclusion:

The activity of each Uranium isotope in 1g HEU in Bq and Ci is given below.

Activity of U-4

  A234=3.4355×105BqA234=0.9285×105Ci

Activity of U-5

  A235=7.4568×104BqA235=2.0153×106Ci

Activity of U-8

  A238=0.62×103BqA238=0.16756×107Ci

(b)

To determine

The total activity of 1g of enriched Uranium, in Bq and in Ci.

(b)

Expert Solution
Check Mark

Answer to Problem 4.42P

  Totalactivity=3.5×106Bq=0.95×104Ci

Explanation of Solution

Given:

Most prominent Uranium isotope in Highly enriched uranium (HEU) is U-5. It’s about 93.5% as percentages by weight.

Formula used:

  A=λNA = Activity in becquerel (Bq)N = The number of undecayed nucleiλ= Decay constant (s-1)λ=0.693HalflifeN=massAtomicmass×avogadro's Constant

Calculation:

  Total activity= ActivityofU-4+U-5+U-8=3.4355×106Bq+7.4568×104Bq+0.62×103Bq=3.5×106Bq=3.5×106decayssecond×1Curie3 .7×10 10 decays second=0.95×104Ci

Conclusion:

The total activity of 1g of enriched Uranium, in Bq and in Ci is as given below.

  Totalactivity=3.5×106Bq=0.95×104Ci

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