The binding energy per nucleon of 16O is 7.97 MeV and that of 17O is 7.75 MeV. The energy in MeV required to remove a neutron from 17O is
3.52
3.64
4.23
7.86
If the ratio of the radius of a nucleus with 61 neutrons to that of helium nucleus is 3, then the atomic number of this nucleus is
27
47
51
61
A radioactive sample contains 10-3 kg each of two nuclear species A and B with half-life 4 days and 8 days, respectively. The ratio of the amounts of A and B after period of 16 days is
1 : 2
4 : 1
1 : 4
2 : 1
The binding energy per nucleon for deuteron (1H2) and helium (2He4) are 1.1 MeV and 7 .0 MeV, respectively. The energy released when two deuterons fuse to form a helium nucleus is
36.2 MeV
23.6 MeV
47.2 MeV
11.8 MeV
In a series of radioactive decays, if a nucleus of mass number 180 and atomic number 72 decays into another nucleus of mass number 172 and atomic number 69, then the number of α and β particles released respectively are
2,3
2,2
2,1
2,0
The half-life of a radioactive substance is 20 min. The time taken between 50 % decay and 87.5 % decay of the substance will be
20 min
30 min
40 min
25 min
On an average, the number of neutrons and the energy of a neutron released per fission of a uranium atom are respectively
2.5 and 2 keV
3 and 1 keV
2.5 and 2 MeV
2 and 2 keV
C.
2.5 and 2 MeV
Fission also results in the production of several neutrons, typically two or three. On the average, about 2.5 neutrons are released per unit and the energy of a neutron released per fission of a uranium atom are 2 MeV.
A radioactive material of half-life time of 69.3 days kept in a container. of the substance remains undecayed after (given, )
20 days
25 days
35 days
40 days
The ratio between the radii of nuclei with mass numbers 27 and 125 is
5 : 3
3 : 5
27 : 125
125 : 27