Nuclear Energy
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PHXII13:NUCLEI

363742 When two deuterium nuclei fuse together to form a tritium nucleus, we get a

1 Neutron
2 Deuteron
3 Alpha particle
4 Proton
PHXII13:NUCLEI

363743 Hydrogen bomb is based upon

1 fission
2 fusion
3 chemical reaction
4 transmutation
PHXII13:NUCLEI

363744 Which of the following is the fusion reaction?

1 \({}_0{n^1} + {}_{\text{7}}{{\text{N}}^{14}} \to {}_6{{\text{C}}^{14}} + {}_1{{\text{H}}^1}\)
2 \({}_0{n^1} + {}_{92}{{\text{U}}^{238}} \to {}_{93}{\text{N}}{{\text{p}}^{239}} + {\beta ^{ - 1}} + \gamma \)
3 \({}_1{{\text{H}}^2} + {}_1{{\text{H}}^2} \to {}_2{\text{H}}{{\text{e}}^4}\)
4 \({}_1{{\text{H}}^3} \to {}_2{\text{H}}{{\text{e}}^3} + {\beta ^{ - 1}} + \gamma \)
PHXII13:NUCLEI

363745 Assertion :
A fission reaction can be more easily controlled than a fusion reaction.
Reason :
The percentage of mass converted to energy in a fusion reaction is \(0.1 \%\) whereas in a fusion reaction it is \(0.4 \%\).

1 Both Assertion and Reason are correct and Reason is the correct explanation of the Assertion.
2 Both Assertion and Reason are correct but Reason is not the correct explanation of the Assertion.
3 Assertion is correct but Reason is incorrect.
4 Assertion is incorrect but reason is correct.
PHXII13:NUCLEI

363746 Calculate the energy which can be obtained from 1 \(kg\) of \({H_2}O\) through the fusion reaction \(_1^2H + _1^2H \to _1^3H + p.\) Assume \(1.5 \times {10^{ - 2}}\% \) of the water contains deuterium. The whole deuterium is consumed in the fusion reaction. (Mass of \({}_1{H^2} = 2.01410,\,{}_1{H^3} = 3.01605,\,P = 1.008\) in \(amu\))

1 \(2820 \times {10^4}\,{\text{J}}\)
2 \(2820\,{\text{J}}\)
3 \(2820\, \times {10^8}\,{\text{J}}\)
4 \(2820\, \times {10^6}\,{\text{J}}\)
NEET DIGITAL LIBRARY
PHXII13:NUCLEI

363742 When two deuterium nuclei fuse together to form a tritium nucleus, we get a

1 Neutron
2 Deuteron
3 Alpha particle
4 Proton
PHXII13:NUCLEI

363743 Hydrogen bomb is based upon

1 fission
2 fusion
3 chemical reaction
4 transmutation
PHXII13:NUCLEI

363744 Which of the following is the fusion reaction?

1 \({}_0{n^1} + {}_{\text{7}}{{\text{N}}^{14}} \to {}_6{{\text{C}}^{14}} + {}_1{{\text{H}}^1}\)
2 \({}_0{n^1} + {}_{92}{{\text{U}}^{238}} \to {}_{93}{\text{N}}{{\text{p}}^{239}} + {\beta ^{ - 1}} + \gamma \)
3 \({}_1{{\text{H}}^2} + {}_1{{\text{H}}^2} \to {}_2{\text{H}}{{\text{e}}^4}\)
4 \({}_1{{\text{H}}^3} \to {}_2{\text{H}}{{\text{e}}^3} + {\beta ^{ - 1}} + \gamma \)
PHXII13:NUCLEI

363745 Assertion :
A fission reaction can be more easily controlled than a fusion reaction.
Reason :
The percentage of mass converted to energy in a fusion reaction is \(0.1 \%\) whereas in a fusion reaction it is \(0.4 \%\).

1 Both Assertion and Reason are correct and Reason is the correct explanation of the Assertion.
2 Both Assertion and Reason are correct but Reason is not the correct explanation of the Assertion.
3 Assertion is correct but Reason is incorrect.
4 Assertion is incorrect but reason is correct.
PHXII13:NUCLEI

363746 Calculate the energy which can be obtained from 1 \(kg\) of \({H_2}O\) through the fusion reaction \(_1^2H + _1^2H \to _1^3H + p.\) Assume \(1.5 \times {10^{ - 2}}\% \) of the water contains deuterium. The whole deuterium is consumed in the fusion reaction. (Mass of \({}_1{H^2} = 2.01410,\,{}_1{H^3} = 3.01605,\,P = 1.008\) in \(amu\))

1 \(2820 \times {10^4}\,{\text{J}}\)
2 \(2820\,{\text{J}}\)
3 \(2820\, \times {10^8}\,{\text{J}}\)
4 \(2820\, \times {10^6}\,{\text{J}}\)
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PHXII13:NUCLEI

363742 When two deuterium nuclei fuse together to form a tritium nucleus, we get a

1 Neutron
2 Deuteron
3 Alpha particle
4 Proton
PHXII13:NUCLEI

363743 Hydrogen bomb is based upon

1 fission
2 fusion
3 chemical reaction
4 transmutation
PHXII13:NUCLEI

363744 Which of the following is the fusion reaction?

1 \({}_0{n^1} + {}_{\text{7}}{{\text{N}}^{14}} \to {}_6{{\text{C}}^{14}} + {}_1{{\text{H}}^1}\)
2 \({}_0{n^1} + {}_{92}{{\text{U}}^{238}} \to {}_{93}{\text{N}}{{\text{p}}^{239}} + {\beta ^{ - 1}} + \gamma \)
3 \({}_1{{\text{H}}^2} + {}_1{{\text{H}}^2} \to {}_2{\text{H}}{{\text{e}}^4}\)
4 \({}_1{{\text{H}}^3} \to {}_2{\text{H}}{{\text{e}}^3} + {\beta ^{ - 1}} + \gamma \)
PHXII13:NUCLEI

363745 Assertion :
A fission reaction can be more easily controlled than a fusion reaction.
Reason :
The percentage of mass converted to energy in a fusion reaction is \(0.1 \%\) whereas in a fusion reaction it is \(0.4 \%\).

1 Both Assertion and Reason are correct and Reason is the correct explanation of the Assertion.
2 Both Assertion and Reason are correct but Reason is not the correct explanation of the Assertion.
3 Assertion is correct but Reason is incorrect.
4 Assertion is incorrect but reason is correct.
PHXII13:NUCLEI

363746 Calculate the energy which can be obtained from 1 \(kg\) of \({H_2}O\) through the fusion reaction \(_1^2H + _1^2H \to _1^3H + p.\) Assume \(1.5 \times {10^{ - 2}}\% \) of the water contains deuterium. The whole deuterium is consumed in the fusion reaction. (Mass of \({}_1{H^2} = 2.01410,\,{}_1{H^3} = 3.01605,\,P = 1.008\) in \(amu\))

1 \(2820 \times {10^4}\,{\text{J}}\)
2 \(2820\,{\text{J}}\)
3 \(2820\, \times {10^8}\,{\text{J}}\)
4 \(2820\, \times {10^6}\,{\text{J}}\)
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PHXII13:NUCLEI

363742 When two deuterium nuclei fuse together to form a tritium nucleus, we get a

1 Neutron
2 Deuteron
3 Alpha particle
4 Proton
PHXII13:NUCLEI

363743 Hydrogen bomb is based upon

1 fission
2 fusion
3 chemical reaction
4 transmutation
PHXII13:NUCLEI

363744 Which of the following is the fusion reaction?

1 \({}_0{n^1} + {}_{\text{7}}{{\text{N}}^{14}} \to {}_6{{\text{C}}^{14}} + {}_1{{\text{H}}^1}\)
2 \({}_0{n^1} + {}_{92}{{\text{U}}^{238}} \to {}_{93}{\text{N}}{{\text{p}}^{239}} + {\beta ^{ - 1}} + \gamma \)
3 \({}_1{{\text{H}}^2} + {}_1{{\text{H}}^2} \to {}_2{\text{H}}{{\text{e}}^4}\)
4 \({}_1{{\text{H}}^3} \to {}_2{\text{H}}{{\text{e}}^3} + {\beta ^{ - 1}} + \gamma \)
PHXII13:NUCLEI

363745 Assertion :
A fission reaction can be more easily controlled than a fusion reaction.
Reason :
The percentage of mass converted to energy in a fusion reaction is \(0.1 \%\) whereas in a fusion reaction it is \(0.4 \%\).

1 Both Assertion and Reason are correct and Reason is the correct explanation of the Assertion.
2 Both Assertion and Reason are correct but Reason is not the correct explanation of the Assertion.
3 Assertion is correct but Reason is incorrect.
4 Assertion is incorrect but reason is correct.
PHXII13:NUCLEI

363746 Calculate the energy which can be obtained from 1 \(kg\) of \({H_2}O\) through the fusion reaction \(_1^2H + _1^2H \to _1^3H + p.\) Assume \(1.5 \times {10^{ - 2}}\% \) of the water contains deuterium. The whole deuterium is consumed in the fusion reaction. (Mass of \({}_1{H^2} = 2.01410,\,{}_1{H^3} = 3.01605,\,P = 1.008\) in \(amu\))

1 \(2820 \times {10^4}\,{\text{J}}\)
2 \(2820\,{\text{J}}\)
3 \(2820\, \times {10^8}\,{\text{J}}\)
4 \(2820\, \times {10^6}\,{\text{J}}\)
NEET DIGITAL LIBRARY
PHXII13:NUCLEI

363742 When two deuterium nuclei fuse together to form a tritium nucleus, we get a

1 Neutron
2 Deuteron
3 Alpha particle
4 Proton
PHXII13:NUCLEI

363743 Hydrogen bomb is based upon

1 fission
2 fusion
3 chemical reaction
4 transmutation
PHXII13:NUCLEI

363744 Which of the following is the fusion reaction?

1 \({}_0{n^1} + {}_{\text{7}}{{\text{N}}^{14}} \to {}_6{{\text{C}}^{14}} + {}_1{{\text{H}}^1}\)
2 \({}_0{n^1} + {}_{92}{{\text{U}}^{238}} \to {}_{93}{\text{N}}{{\text{p}}^{239}} + {\beta ^{ - 1}} + \gamma \)
3 \({}_1{{\text{H}}^2} + {}_1{{\text{H}}^2} \to {}_2{\text{H}}{{\text{e}}^4}\)
4 \({}_1{{\text{H}}^3} \to {}_2{\text{H}}{{\text{e}}^3} + {\beta ^{ - 1}} + \gamma \)
PHXII13:NUCLEI

363745 Assertion :
A fission reaction can be more easily controlled than a fusion reaction.
Reason :
The percentage of mass converted to energy in a fusion reaction is \(0.1 \%\) whereas in a fusion reaction it is \(0.4 \%\).

1 Both Assertion and Reason are correct and Reason is the correct explanation of the Assertion.
2 Both Assertion and Reason are correct but Reason is not the correct explanation of the Assertion.
3 Assertion is correct but Reason is incorrect.
4 Assertion is incorrect but reason is correct.
PHXII13:NUCLEI

363746 Calculate the energy which can be obtained from 1 \(kg\) of \({H_2}O\) through the fusion reaction \(_1^2H + _1^2H \to _1^3H + p.\) Assume \(1.5 \times {10^{ - 2}}\% \) of the water contains deuterium. The whole deuterium is consumed in the fusion reaction. (Mass of \({}_1{H^2} = 2.01410,\,{}_1{H^3} = 3.01605,\,P = 1.008\) in \(amu\))

1 \(2820 \times {10^4}\,{\text{J}}\)
2 \(2820\,{\text{J}}\)
3 \(2820\, \times {10^8}\,{\text{J}}\)
4 \(2820\, \times {10^6}\,{\text{J}}\)