PHYSICS
PHYSICS
5th Edition
ISBN: 2818440038631
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 29, Problem 85P

(a)

To determine

The percentage of the activity of 238Pu source decreases in 10 yr.

(a)

Expert Solution
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Answer to Problem 85P

The percentage of the activity of 238Pu source decreases in 10 yr is 8%.

Explanation of Solution

Radioactive 238Pu is used as a power supply for a pacemaker and the replacement period of the pacemaker is 10.0 yr and the radioactive 238Pu nuclide decay via α decay with half-life T1/2=87.7 yr.

Write the formula for the activity

    R=R0(2t/T1/2)                                                                                            (I)

Here, R is the initial activity, R0 is the activity after a time t, t is the number of days for the activity and T1/2 is the half-life.

Conclusion:

Substitute 87.7 yr for T1/2 and 10.0 yr for t in equation (I) to find the ratio of R/R0

RR0=(210.0 yr/87.7 yr)RR0=(1210.0 yr/87.7 yr)RR0=0.92

The percentage of decrease in the acitivity is 100%92%=8%.

Thus, the percentage of the activity of 238Pu source decreases in 10 yr is 8%.

(b)

To determine

The power output initially and after 10.0 yr

(b)

Expert Solution
Check Mark

Answer to Problem 85P

The power output initially is 0.57 mW and after 10.0 yr is 0.52 mW.

Explanation of Solution

The energy of α particle emitted is 5.6 MeV and assume all the energy is used to run the pacemaker. And the pacemaker starts with m=1.0 mg of 238Pu. The molar pass of 238Pu is 238 g/mol

Write the formula for half-life

    T1/2=τln2                                                                                           (I)

Here, T1/2 is the half-life and τ is the time constant.

Write the formula for the initial number of nuclei

    N0=mNAM                                                                                           (II)

Here, N0 is the initial number of nuclei, m is the mass, NA is the Avogadro’s number and M is the molar mass.

Write the formula for the initial activity

    R0=N0τ                                                                                                 (III)

Here, R0 is the initial activity.

Write the formula for power output

    P0=R0E×efficiency                                                                                 (IV)

Here, E is the energy per decay and P0 is the initial power output

Conclusion:

The half-life of 238Pu is 87.7 yr. One year has 3.1557×107 s.

Substitute 238 g/mol for M, 1.0 mg for m and 6.022×1023 atoms/mol for NA in equation (II) to find the value of N0

N0=1.0×103 g×6.022×1023 atoms/mol238 g/molN0=2.53×1018 atoms

The initial number of atoms is 2.53×1018 atoms.

Substitute equation (I) in (III) and solve for R0

R0=N0τ=N0ln2T1/2

Substitute 2.53×1018 atoms for N0 and 87.7 yr for T1/2 in the above equation to find the value of R0

R0=2.53×1018 atoms×ln287.7 yr×3.1557×107 sR0=6.34×108 Bq

The initial activity is 6.34×108 Bq.

Substitute 6.34×108 Bq for R0, 5.6 MeV for E and 1 for the efficiency in equation (IV) to find the value of P0

P0=6.34×108 Bq×5.6 MeV×1P0=5.7×104WP0=0.57 mW

The initial power output is 0.57 mW.

The power output after 10.0 yr is 92% of P0 : Pt=10 yr=0.57 mW×0.92Pt=10 yr=0.52 mW

The power output after 10.0 yr is 0.52 mW.

Thus, the power output initially is 0.57 mW and after 10.0 yr is 0.52 mW.

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Chapter 29 Solutions

PHYSICS

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