1000 Solved Problems in Modern Physics

468 8 Nuclear Physics – II

When the target and the projectile are interchanged, the same excitation

energyW∗produced withTais given by

−W∗=ETa

mp

mp+mTa

(2)

Comparing (1) and (2)

ETa+Ep

mTa

mp

= 897 .7MeV

8.64 Eth=|Q|

(

1 +

mo

mca

)

= 7. 83

(

1 +^1648

)

= 10 .44 MeV

The velocity,β=

υ

c

=

√

2 T

mc^2

=

√

2 × 10. 44

16 × 931

= 3. 74 × 10 −^2

The impact parameter,b=R 1 +R 2 = 1. 1

(

16

(^1) /
(^3) + 48
(^1) /
3

)

= 6 .153 fm

J=Moυb=n

n=

Moυb



=

Moc^2 βb

c

=

16 × 931 × 3. 74 × 10 −^2 × 6. 153

197. 3

= 17 .37 or 17

8.3.11 Cross-sections ....................................

8.65 If 1% of neutrons are absorbed then 99% are transmitted. The transmitted
number I are related to the incident number by
I=I 0 exp(−μx)(1)
whereμis the absorption coefficient andxis the thickness of the foil.
μ=Σ=σN=σN 0 ρ/A
whereσis the microscopic cross-section,N 0 is the Avagardro’s number,ρthe
density andAthe atomic weight.

μ=

28000 × 10 −^24 × 6. 02 × 1023 × 7. 3

114. 7

cm−^1

= 1 ,073 cm−^1

I/I 0 = 99 / 100 =exp(− 1 , 073 x)

x= 9. 37 × 10 −^6 cm or 9. 37 μm

8.66 Specific activity, that is activity per gram

|dQ/dt|=Qmaxλ=φΣact=φσaN 0 /A

= 5 × 1012 × 20 × 10 −^24 × 6. 02 × 1023 / 60

= 1012 disintegrations per second per gram.

8.67|dQ/dt|=Qλ=φΣact(1−e−λt)
Given|dQ/dt|/|dQs/dt|= 20 / 100 = 1 −e−^0 .693t/^5.^3
or exp(0. 693 t/ 5 .3)= 1. 25
Take logeto findt= 1 .7 years.