Fusion reaction takes place at a higher temperature because:
1. | atoms get ionized at high temperatures. |
2. | kinetic energy is high enough to overcome the Coulomb repulsion between nuclei. |
3. | molecules break up at a high temperature. |
4. | nuclei break up at a high temperature. |
The decay constant of a radio isotope is If and are its activities at times and respectively, the number of nuclei which have decayed during the time
1.
2.
3.
4.
The binding energy per nucleon in deuterium and helium nuclei are and respectively. When two deuterium nuclei fuse to form a helium nucleus the energy released in the fusion is
1.
2.
3.
4.
Two radioactive material and have decay constants and respectively. If initially they have the same number of nuclei of to that of after a time
1.
2.
3.
4.
One nanogram of matter converted into energy will give-
1. 90 J
2.
3.
4.
Fast neutrons can easily be slowed down by
1. The use of lead shielding
2. Passing them through heavy water
3. Elastic collisions with heavy nuclei
4. Applying a strong electric field
The number of neutrons released when undergoes fission by absorbing and are formed, is
1. 0
2. 1
3. 2
4. 3
The binding energy of nucleus is a measure of its
1. Charge
2. Mass
3. Momentum
4. Stability
Heavy water is
1. Water at 4
2. Compound of deuterium and oxygen
3. Compound of heavy oxygen and heavy hydrogen
4. Water in which soap does not lather
1. | \({}_{34}^{74}\mathrm{Se}, {}_{31}^{71}\mathrm{Ca}\) | 2. | \({}_{42}^{92}\mathrm{Mo}, {}_{40}^{92}\mathrm{Zr}\) |
3. | \({}_{38}^{81}\mathrm{Sr}, {}_{38}^{86}\mathrm{Sr}\) | 4. | \({}_{20}^{40}\mathrm{Ca}, {}_{16}^{32}\mathrm{S}\) |