One nanogram of matter converted into energy will give-
(1) 90 J
(2)
(3)
(4) \(9\times 10^{4}~J\)
The binding energy of deuteron is 1.112 MeV per nucleon and an -particle has a binding energy of 7.047 MeV per nucleon. Then in the fusion reaction , the energy Q released is
(1) 1 MeV
(2) 11.9 MeV
(3) 23.8 MeV
(4) 931 MeV
Binding energy of a nucleus is:
(1) Energy given to its nucleus during its formation
(2) Total mass of nucleus converted to energy units
(3) Loss of energy from the nucleus during its formation
(4) Total K.E. and P.E. of the nucleons in the nucleus
Which of the following pairs is an isobar
(1) and
(2) and
(3) and
(4) and
Equivalent energy of mass equal to 1 a.m.u. is
(1) 931 KeV
(2) 931 eV
(3) 931 MeV
(4) 9.31 MeV
The mass number of a nucleus is equal to the number of
(1) Electrons it contains
(2) Protons it contains
(3) Neutrons it contains
(4) Nucleons it contains
1. | \(510\) KeV | 2. | \(931\) KeV |
3. | \(510\) MeV | 4. | \(931\) MeV |
In nucleus, there are
(1) 138 protons and 88 neutrons
(2) 138 neutrons and 88 protons
(3) 226 protons and 88 electrons
(4) 226 neutrons and 138 electrons
Outside a nucleus
1. Neutron is stable
2. Proton and neutron both are stable
3. Neutron is unstable
4. Neither neutron nor proton is stable
Order of magnitude of density of uranium nucleus is ()
(1)
(2)
(3)
(4)