If 200 MeV energy is released in the fission of a single U235 nucleus, the number of fissions required per second to produce 1 kilowatt power shall be (Given

1 eV=1.6×10-19 J

(1) 3.125×1013         

(2) 3.125×1014

(3) 3.125×1015           

(4) 3.125×1016

Subtopic:  Mass-Energy Equivalent |
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In nuclear fission, the fission reactions proceeds with a projectile. Which of the following suits the best

(1) Slow proton             

(2) Fast neutron

(3) Slow neutron         

(4) None of these

Subtopic:  Mass-Energy Equivalent |
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In the nuclear reaction  X85297Y+4α, Y is 

1. Y28776            

2. Y28577

3. Y28177             

4. Y28977

Subtopic:  Types of Decay |
 87%
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Thermal neutrons can cause fission in 

(1) U235          

(2) U238

(3) Pu238        

(4) Th232

Subtopic:  Mass-Energy Equivalent |
 70%
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When neutrons are bombarded on nucleus of U23592, the number of emitted neutrons will be 

(1) 1         

(2) 2

(3) 3         

(4) 4

Subtopic:  Mass-Energy Equivalent |
 63%
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The energy released in a typical nuclear fusion reaction is approximately 

(1) 25 MeV           

(2) 200 MeV

(3) 800 MeV         

(4) 1050 MeV

Subtopic:  Mass-Energy Equivalent |
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Which one of the following nuclear reactions is a source of energy in the sun 

(1) Be49+He24C612+n0-1

(2) He23+He23He24+H11+H11

(3) Ba56144+Kr5692U92235+n0-1

(4) Fe2656+Ca48112W74167+n0-1

Subtopic:  Mass-Energy Equivalent |
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Which of these is a fusion reaction 

(1) H13+H12He24+n01

(2) U92238Pb82206+8He24+6β-10

(3) C712C612+β++γ

(4) None of these

Subtopic:  Mass-Energy Equivalent |
 86%
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In a nuclear fission reaction 

(1) Two light nuclei combine to produce a heavier nucleus

(2) A light nucleus bombarded by thermal neutrons breaks up

(3) A heavy nucleus bombarded by thermal neutrons breaks up

(4) A heavy nucleus breaks up by itself

Subtopic:  Mass-Energy Equivalent |
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Hydrogen bomb is based on which of the following phenomenon

(1) Nuclear fission             

(2) Nuclear fusion

(3) Radioactive decay       

(4) None of these

Subtopic:  Mass-Energy Equivalent |
 66%
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