Section Section Nuclear radius R = RoA1/3, Ro= 1.2 fm 12.2 Nuclear B=[Nm+ Zm(H)-m(X)]c² 12.3 Qvalue of decay Q=[mx (mx, +m,)]c² 12.6 binding energy X-X' + X Proton Sp=[m(X)+m(H) 12.3 Q value of Q=[m(X)-m(X) - m(He)]c² 12.7 separation -m(xx)]c² alpha decay energy Kinetic energy K = Q(A-4)/A 12.7 Neutron S=[m(X-1)+m 12.3 of alpha separation -m(XN)]c² particle energy Q values of Q = [m(1X)-m(1X)]c², 12.8 Range of mc² = hc/x 12.4 beta decay Q = [m(1X)-m(1X) - 2m.]c² exchanged Recoil in KR = E²/2Mc² 12.9 particle gamma decay Activity a = AN, λ = In 2/11/2 = 0.693/11/2 12.5 Radioactive N = Noe, a = aoe- 12.5 decay law (a) Compute the Coulomb repulsion energy between two nuclei of 160 that just touch at their surfaces. (b) Do the same for two nuclei of 238U. 18.
Section Section Nuclear radius R = RoA1/3, Ro= 1.2 fm 12.2 Nuclear B=[Nm+ Zm(H)-m(X)]c² 12.3 Qvalue of decay Q=[mx (mx, +m,)]c² 12.6 binding energy X-X' + X Proton Sp=[m(X)+m(H) 12.3 Q value of Q=[m(X)-m(X) - m(He)]c² 12.7 separation -m(xx)]c² alpha decay energy Kinetic energy K = Q(A-4)/A 12.7 Neutron S=[m(X-1)+m 12.3 of alpha separation -m(XN)]c² particle energy Q values of Q = [m(1X)-m(1X)]c², 12.8 Range of mc² = hc/x 12.4 beta decay Q = [m(1X)-m(1X) - 2m.]c² exchanged Recoil in KR = E²/2Mc² 12.9 particle gamma decay Activity a = AN, λ = In 2/11/2 = 0.693/11/2 12.5 Radioactive N = Noe, a = aoe- 12.5 decay law (a) Compute the Coulomb repulsion energy between two nuclei of 160 that just touch at their surfaces. (b) Do the same for two nuclei of 238U. 18.
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Question
![Section
Section
Nuclear radius R = RoA1/3, Ro= 1.2 fm
12.2
Nuclear
B=[Nm+ Zm(H)-m(X)]c² 12.3
Qvalue of
decay
Q=[mx (mx, +m,)]c²
12.6
binding energy
X-X' + X
Proton
Sp=[m(X)+m(H)
12.3
Q value of
Q=[m(X)-m(X) - m(He)]c²
12.7
separation
-m(xx)]c²
alpha decay
energy
Kinetic energy K = Q(A-4)/A
12.7
Neutron
S=[m(X-1)+m
12.3
of alpha
separation
-m(XN)]c²
particle
energy
Q values of
Q
= [m(1X)-m(1X)]c²,
12.8
Range of
mc² = hc/x
12.4
beta decay
Q
= [m(1X)-m(1X) - 2m.]c²
exchanged
Recoil in
KR = E²/2Mc²
12.9
particle
gamma decay
Activity
a = AN, λ = In 2/11/2 = 0.693/11/2
12.5
Radioactive
N = Noe, a = aoe-
12.5
decay law](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F739452bb-bec9-43d8-9372-35dc57efa9d5%2F54c9b860-5c36-4c54-8903-bc05414d02d9%2F6bwwrvid_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Section
Section
Nuclear radius R = RoA1/3, Ro= 1.2 fm
12.2
Nuclear
B=[Nm+ Zm(H)-m(X)]c² 12.3
Qvalue of
decay
Q=[mx (mx, +m,)]c²
12.6
binding energy
X-X' + X
Proton
Sp=[m(X)+m(H)
12.3
Q value of
Q=[m(X)-m(X) - m(He)]c²
12.7
separation
-m(xx)]c²
alpha decay
energy
Kinetic energy K = Q(A-4)/A
12.7
Neutron
S=[m(X-1)+m
12.3
of alpha
separation
-m(XN)]c²
particle
energy
Q values of
Q
= [m(1X)-m(1X)]c²,
12.8
Range of
mc² = hc/x
12.4
beta decay
Q
= [m(1X)-m(1X) - 2m.]c²
exchanged
Recoil in
KR = E²/2Mc²
12.9
particle
gamma decay
Activity
a = AN, λ = In 2/11/2 = 0.693/11/2
12.5
Radioactive
N = Noe, a = aoe-
12.5
decay law
Transcribed Image Text:(a) Compute the Coulomb repulsion energy between two
nuclei of 160 that just touch at their surfaces. (b) Do the
same for two nuclei of 238U.
18.
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