A freshly prepared radioactive sample of half-life 4 hours emits radiation of intensity which is 64 times the safe level. The minimum hours after which it would be safe to work with it is
4
6
24
16
C.
24
According to question
A radioactive decay can form an isotope of the original nucleus with the emission of particles
one α and four β
one α and two β
one α and one β
four α and one β
A radioactive sample at any instant has its disintegration rate 5000 disintegrations per minute. After 5 min, the rate becomes 1250 disintegration per minute. Then, its decay constant (per minute) is
0.8 loge 2
0.4 loge 2
0.2 loge 2
0.1 loge 2
The distance of closest approach of an α-particle fired towards a nucleus with momentum p, is r. If the momentum of the α-particle is 2p, the corresponding distance of closest approach is
2r
4r
If the binding energy per nucleon of deuteron is 1.115 MeV, its mass defect in atomic mass unit is
0.0048
0.0024
0.0012
0.0006
The set which represents the isotope, isobar and isotone respectively is
(1H2, 1H3), (79Au197, 80Hg198) and (2He3, 1H2)
( 2He3, 1H1), (79Au197, 80Hg198) and (1H1, 1H3)
(2He3, 1H3), (1H2, 1H3) and ( 79Au197, 80Hg198)
(1H2, 1H3), (2He3, 1H3) and (79Au197, 80Hg198)
Two samples X and Y contain equal amount of radioactive substances. If th of the sample X and th of the sample Y, remain after 8 h, then the ratio of half periods of X and Y is
2 : 1
1 : 2
1 : 4
1 : 16
Radioactive is transformed into stable by emitting two γ-rays of energies
1.33 MeV and 1.17 MeV in succession
1.17 MeV and 1.33 MeV in succession
1.37 MeV and 1.13 MeV in succession
1.13 MeV and 1.37 MeV in succession
The activity of a radioactive element decreases to one-third of the original activity A0 in a period of 9 yr. After a further lapes of 9 yr, its activity will be
A0
Two nucleons are at a separation of 1 fermi. The net force between them is F1 if both are neutrons, F2 if both are protons and F3 if one is proton and the other is a neutron. Then
F1 > F2 > F3
F1 = F3 > F2
F2 > F1 > F3
F1 = F2 > F3