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Page 1 1. (c). The energy produced per second is = 1000 × 10 3 J = 6 19 10 1.6 10 - ´ eV 6.25 × 10 24 eV The number of fissions should be, thus number = 24 6 6.25 10 200 10 ´ ´ = 3.125 × 10 16 2. (b). No. of atoms in 2kg 92 U 235 = 2 235 × N A = 2 235 × (6.02 × 10 26 ) = 5.12 × 10 24 Fission rate = 24 5.12 10 30 246060 ´ ´´´ = 1.975 × 10 18 per sec Usable energy per fission = 185 MeV \ Power output = (185 × 10 6 )(1.975 × 10 18 )(1.6 × 10 –19 ) watt = 58.4 × 10 6 watt = 58.46 MW 3. (d). \ 6 gm of 6 C 12 contains atoms = 23 6 10 2 ´ and each atom of 6 C 12 contains electron, protons and neutrons = 6, 6, 6 \ No. of electron, protons and neutron in 6 gm of 6 C 12 = 18 × 10 23 , 18 × 10 23 , 18 × 10 23 4. (c). Use r = Mass/volume = 27 15 1.66 10 16 (4/3)(310) - - ´´ p´ = 2.35 × 10 17 kg m -3 5. (a). Mass defect Dm = M (Ra 226) – M(Rn 222) – M (a) = 226.0256 – 222.0175 – 4.00026 = 0.0053 u. 6. (a). E = mc 2 = (1.66 × 10 –27 ) (3 × 10 8 ) 2 J = 1.49 × 10 –10 J = 10 13 1.49 10 1.6 10 - - ´ ´ MeV = 931.49 MeV 7. (b). E = mc 2 = (9.1 × 10 –31 ) (3 × 10 8 ) 2 J = 0.51 MeV 8. (c). DE = D mc 2 Dm = 0.5 100 kg = 0.005 kg c = 3 × 10 8 m/s DE = 0.005 × (3 × 10 8 ) 2 DE = 4.5 × 10 14 J or watt-sec DE = 14 4.5 10 60 60 ´ ´ = 1.25 × 10 111 watt hour DE = 1.25 × 10 8 kWH 9. (b). By the forumula N = N 0 e –lt Given 0 N N = 1 20 and l = 0.6931 3.8 Þ 20 = 0.631× 3.8 t e Taking log of both sides or log 20 = 10 0.6931 × log 3.8 t e or 1.3010 = 0.6931 × 0.4343 3.8 t ´ Þ t = 16.5 days 10. (b). A = 238 - 4 = 234, Z = 92 - 2 = 90 11. (a). Dm = 0.03 a.m.u., A = 4 Þ DE = m 931 A D´ Þ DE = 0.03 931 4 ´ = 7 MeV 12. (a). Q DE = Dm × 931 MeV Þ Dm = E 2.23 931 931 D = = 0.0024 a.m.u. 13. (a). 1/3 Al 1/3 Te R (27) 36 R 5 10 (125) = == 14. (d). R = R 0 A 1/3 = 1.2 × 10 -15 × (64) 1/3 = 1.2 × 10 –15 × 4 = 4.8 fm 15. (b). Number of protrons in nucleus = atomic number = 11 Number of electrons = number of protons = 11. Number of neutrons = mass number A – atomic number Z N = 24 – 11 = 13 16. (d). Q equivalent mass of each photon = 1/2000 amu Q 1 amu = 931 MeV \ Energy of each photon = 931 2000 = 0.465 MeV 17. (c). Deuterium, the isotope of hydrogen consits of one proton and neutron. Therefore mass of nuclear constituents of deuterium = mass of proton + mass of neutron = 1.00759 + 1.00898 = 2.01657 amu. mass of nucleus of deuterium = 2.01470 amu. Mass defect = 2.01657 – 2.01470 = 0.00187 amu. Binding energy = DE = 0.00187 × 931 MeV = 1.741 MeV . 18. (a). E = E m 931 AA D D´ = MeV Dm = (3m p + 4m n ) – mass of Li 7 Dm = (3 × 1.00759 + 4 × 1.00898) – 7.01653 Dm = 0.04216 a.m.u. DE = 0.04216 931 39.25 77 ´ = = 5.6 MeV Page 2 1. (c). The energy produced per second is = 1000 × 10 3 J = 6 19 10 1.6 10 - ´ eV 6.25 × 10 24 eV The number of fissions should be, thus number = 24 6 6.25 10 200 10 ´ ´ = 3.125 × 10 16 2. (b). No. of atoms in 2kg 92 U 235 = 2 235 × N A = 2 235 × (6.02 × 10 26 ) = 5.12 × 10 24 Fission rate = 24 5.12 10 30 246060 ´ ´´´ = 1.975 × 10 18 per sec Usable energy per fission = 185 MeV \ Power output = (185 × 10 6 )(1.975 × 10 18 )(1.6 × 10 –19 ) watt = 58.4 × 10 6 watt = 58.46 MW 3. (d). \ 6 gm of 6 C 12 contains atoms = 23 6 10 2 ´ and each atom of 6 C 12 contains electron, protons and neutrons = 6, 6, 6 \ No. of electron, protons and neutron in 6 gm of 6 C 12 = 18 × 10 23 , 18 × 10 23 , 18 × 10 23 4. (c). Use r = Mass/volume = 27 15 1.66 10 16 (4/3)(310) - - ´´ p´ = 2.35 × 10 17 kg m -3 5. (a). Mass defect Dm = M (Ra 226) – M(Rn 222) – M (a) = 226.0256 – 222.0175 – 4.00026 = 0.0053 u. 6. (a). E = mc 2 = (1.66 × 10 –27 ) (3 × 10 8 ) 2 J = 1.49 × 10 –10 J = 10 13 1.49 10 1.6 10 - - ´ ´ MeV = 931.49 MeV 7. (b). E = mc 2 = (9.1 × 10 –31 ) (3 × 10 8 ) 2 J = 0.51 MeV 8. (c). DE = D mc 2 Dm = 0.5 100 kg = 0.005 kg c = 3 × 10 8 m/s DE = 0.005 × (3 × 10 8 ) 2 DE = 4.5 × 10 14 J or watt-sec DE = 14 4.5 10 60 60 ´ ´ = 1.25 × 10 111 watt hour DE = 1.25 × 10 8 kWH 9. (b). By the forumula N = N 0 e –lt Given 0 N N = 1 20 and l = 0.6931 3.8 Þ 20 = 0.631× 3.8 t e Taking log of both sides or log 20 = 10 0.6931 × log 3.8 t e or 1.3010 = 0.6931 × 0.4343 3.8 t ´ Þ t = 16.5 days 10. (b). A = 238 - 4 = 234, Z = 92 - 2 = 90 11. (a). Dm = 0.03 a.m.u., A = 4 Þ DE = m 931 A D´ Þ DE = 0.03 931 4 ´ = 7 MeV 12. (a). Q DE = Dm × 931 MeV Þ Dm = E 2.23 931 931 D = = 0.0024 a.m.u. 13. (a). 1/3 Al 1/3 Te R (27) 36 R 5 10 (125) = == 14. (d). R = R 0 A 1/3 = 1.2 × 10 -15 × (64) 1/3 = 1.2 × 10 –15 × 4 = 4.8 fm 15. (b). Number of protrons in nucleus = atomic number = 11 Number of electrons = number of protons = 11. Number of neutrons = mass number A – atomic number Z N = 24 – 11 = 13 16. (d). Q equivalent mass of each photon = 1/2000 amu Q 1 amu = 931 MeV \ Energy of each photon = 931 2000 = 0.465 MeV 17. (c). Deuterium, the isotope of hydrogen consits of one proton and neutron. Therefore mass of nuclear constituents of deuterium = mass of proton + mass of neutron = 1.00759 + 1.00898 = 2.01657 amu. mass of nucleus of deuterium = 2.01470 amu. Mass defect = 2.01657 – 2.01470 = 0.00187 amu. Binding energy = DE = 0.00187 × 931 MeV = 1.741 MeV . 18. (a). E = E m 931 AA D D´ = MeV Dm = (3m p + 4m n ) – mass of Li 7 Dm = (3 × 1.00759 + 4 × 1.00898) – 7.01653 Dm = 0.04216 a.m.u. DE = 0.04216 931 39.25 77 ´ = = 5.6 MeV DPP/ P 56 156 19. (d). The sun radiates energy in all directions in a sphere. At a distance R, the energy received per unit area per second is 1.4 KJ (given). Therefore the energy released in area 4pR 2 per sec is = 1400 × 4pR 2 Joule the energy released per day = 1400 × 4pR 2 × 86400J where R = 1.5 × 10 11 m, Thus DE = 1400×4 × 3.14 × (1.5 × 10 11 ) 2 × 86400 The equivalent mass is Dm = DE/c 2 Dm = 112 16 1400 4 3.14 (1.5 10 ) 86400 9 10 ´´ ´ ´´ ´ Dm = 3.8 × 10 14 kg 20. (b) Fission + + Fusion A .. BE A 21. (c) / 10/5 0 11 50000 22 tT t NN æö æö == ç÷ ç÷ èø èø = 12500 22. (d). Power received from the reactor, P = 1000 KW = 1000 × 1000 W = 10 6 J/s P = 6 19 10 1.6 10 - ´ eV/sec. P = 6.25 × 10 18 MeV/sec \ number of atoms disintegrated per sec = 18 6.25 10 200 ´ = 3.125 × 10 16 Energy released per hour = 10 6 × 60 × 60 Joule Mass decay per hour = Dm = 2 E c D Þ Dm = 6 82 10 60 60 (3 10) ´´ ´ Þ Dm = 4 × 10 –8 kg 23. (a) 24. (a) In fusion two lighter nuclei combines, it is not the radioactive decay. 25. (c) The number of 12 C atoms in 1g of carbon, 23 6.022 10 1 12 12 A N N mN ´ =´Þ=´ = 5.02 × 10 22 atoms. The ratio of 14 C/ 12 C atoms = 1.3 × 10 –12 (Given) \ Number of 14 C atoms = 5.02 × 10 22 × 1.3 × 10 – 12 = 6.5 × 10 10 \ Rate of decay R 0 = lN 0 = 0 1/2 0.693 N T \ R 0 = 10 0.693 6.5 10 5730 365 24 3600 ´´ ´ ´´ 0.25 Bq 0.25 == (decays/s) 26. (c) For 10g sample, number of decays = 0.5 per second. i.e. R = 0.05 and R 0 = 0.25 for each gram of 14 C 00 0 1/2 ln(/ ) ln(/ ) 1 1 (0.693/ ) t RR RR R et RT -l =Þ== l Þ 5730 years 0.25 ln 0.693 0.05 æö =´ ç÷ èø t = 13310 years 27. (d) If there are no other radioactive ingredients, the sample is very recent. But the error of measurement must be high unless the statistical error itself is large. In any case, for an old sample, the activity will not be higher than that of a recent one. 28. (d) The penetrating power is maximum in case of gamma rays because gamma rays are an electromagnetic radiation of very small wavelength. 29. (b) b-particles, being emitted with very high velocity (up to 0.99 c). So, according to Einstein's theory of relatively, the mass of a b-particle is much higher compared to is its rest mass (m 0 ). The velocity of electrons obtained by other means is very small compared to c (V elocity of light). So its mass remains nearly m 0 . But b-particle and electron both are similar particles. 30. (b) Electron capture occurs more often than positron emission in heavy elements. This is because if positron emission is energetically allowed, electron capture is necessarily allowed, but the reverse is not true i.e. when electron caputre is energetically allowed, positron emission is not necessarily allowed.Read More
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