Nuclear Energy
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PHXII13:NUCLEI

363755 In nuclear reaction, \(_2H{e^4}{ + _Z}{X^A}{ \to _{Z + 2}}{Y^{A + 3}}{ + _Z}{M^A}\,\,M\) denotes

1 electron
2 positron
3 proton
4 neutron
PHXII13:NUCLEI

363756 Which of these is a fusion reaction?

1 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
2 \(_1^3{\rm{H}} + _1^2{\rm{H}} \to _2^4{\rm{He}} + _1^1n\)
3 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
4 \({\mathop{\rm None}\nolimits} \,\,{\mathop{\rm of}\nolimits} \,\,{\mathop{\rm these}\nolimits} \)
PHXII13:NUCLEI

363757 Fusion reaction takes place at high temperature because

1 Kinetic energy is high enough to overcome the coulomb repulsion between nuclei
2 Atoms get ionised at high temperature
3 Nuclei break up at high temperature
4 Molecules break up at high temperature
PHXII13:NUCLEI

363758 Consider the following reaction
\({ }_{1}^{1} H+{ }_{1}^{3} H \rightarrow{ }_{1}^{2} H+{ }_{1}^{2} H\). The atomic masses are given as
\(m\left({ }_{1}^{1} H\right)=1.007825 \,amu\)
\(m\left({ }_{1}^{2} H\right)=2.014102\,a m u\)
\(m\left( {_1^3H} \right) = 3.016049\,amu\)
The \(Q\) value of the above reaction will be

1 \( - 4.03\,MeV\)
2 \( - 2.01\,MeV\)
3 \(2.01\,MeV\)
4 \(4.03\,MeV\)
PHXII13:NUCLEI

363759 Assertion :
It is not possible to use \(^{35}Cl\) as the fuel for fusion energy.
Reason :
The binding energy of \(^{35}Cl\) is too small.

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.
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PHXII13:NUCLEI

363755 In nuclear reaction, \(_2H{e^4}{ + _Z}{X^A}{ \to _{Z + 2}}{Y^{A + 3}}{ + _Z}{M^A}\,\,M\) denotes

1 electron
2 positron
3 proton
4 neutron
PHXII13:NUCLEI

363756 Which of these is a fusion reaction?

1 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
2 \(_1^3{\rm{H}} + _1^2{\rm{H}} \to _2^4{\rm{He}} + _1^1n\)
3 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
4 \({\mathop{\rm None}\nolimits} \,\,{\mathop{\rm of}\nolimits} \,\,{\mathop{\rm these}\nolimits} \)
PHXII13:NUCLEI

363757 Fusion reaction takes place at high temperature because

1 Kinetic energy is high enough to overcome the coulomb repulsion between nuclei
2 Atoms get ionised at high temperature
3 Nuclei break up at high temperature
4 Molecules break up at high temperature
PHXII13:NUCLEI

363758 Consider the following reaction
\({ }_{1}^{1} H+{ }_{1}^{3} H \rightarrow{ }_{1}^{2} H+{ }_{1}^{2} H\). The atomic masses are given as
\(m\left({ }_{1}^{1} H\right)=1.007825 \,amu\)
\(m\left({ }_{1}^{2} H\right)=2.014102\,a m u\)
\(m\left( {_1^3H} \right) = 3.016049\,amu\)
The \(Q\) value of the above reaction will be

1 \( - 4.03\,MeV\)
2 \( - 2.01\,MeV\)
3 \(2.01\,MeV\)
4 \(4.03\,MeV\)
PHXII13:NUCLEI

363759 Assertion :
It is not possible to use \(^{35}Cl\) as the fuel for fusion energy.
Reason :
The binding energy of \(^{35}Cl\) is too small.

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.
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PHXII13:NUCLEI

363755 In nuclear reaction, \(_2H{e^4}{ + _Z}{X^A}{ \to _{Z + 2}}{Y^{A + 3}}{ + _Z}{M^A}\,\,M\) denotes

1 electron
2 positron
3 proton
4 neutron
PHXII13:NUCLEI

363756 Which of these is a fusion reaction?

1 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
2 \(_1^3{\rm{H}} + _1^2{\rm{H}} \to _2^4{\rm{He}} + _1^1n\)
3 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
4 \({\mathop{\rm None}\nolimits} \,\,{\mathop{\rm of}\nolimits} \,\,{\mathop{\rm these}\nolimits} \)
PHXII13:NUCLEI

363757 Fusion reaction takes place at high temperature because

1 Kinetic energy is high enough to overcome the coulomb repulsion between nuclei
2 Atoms get ionised at high temperature
3 Nuclei break up at high temperature
4 Molecules break up at high temperature
PHXII13:NUCLEI

363758 Consider the following reaction
\({ }_{1}^{1} H+{ }_{1}^{3} H \rightarrow{ }_{1}^{2} H+{ }_{1}^{2} H\). The atomic masses are given as
\(m\left({ }_{1}^{1} H\right)=1.007825 \,amu\)
\(m\left({ }_{1}^{2} H\right)=2.014102\,a m u\)
\(m\left( {_1^3H} \right) = 3.016049\,amu\)
The \(Q\) value of the above reaction will be

1 \( - 4.03\,MeV\)
2 \( - 2.01\,MeV\)
3 \(2.01\,MeV\)
4 \(4.03\,MeV\)
PHXII13:NUCLEI

363759 Assertion :
It is not possible to use \(^{35}Cl\) as the fuel for fusion energy.
Reason :
The binding energy of \(^{35}Cl\) is too small.

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.
NEET DIGITAL LIBRARY
PHXII13:NUCLEI

363755 In nuclear reaction, \(_2H{e^4}{ + _Z}{X^A}{ \to _{Z + 2}}{Y^{A + 3}}{ + _Z}{M^A}\,\,M\) denotes

1 electron
2 positron
3 proton
4 neutron
PHXII13:NUCLEI

363756 Which of these is a fusion reaction?

1 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
2 \(_1^3{\rm{H}} + _1^2{\rm{H}} \to _2^4{\rm{He}} + _1^1n\)
3 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
4 \({\mathop{\rm None}\nolimits} \,\,{\mathop{\rm of}\nolimits} \,\,{\mathop{\rm these}\nolimits} \)
PHXII13:NUCLEI

363757 Fusion reaction takes place at high temperature because

1 Kinetic energy is high enough to overcome the coulomb repulsion between nuclei
2 Atoms get ionised at high temperature
3 Nuclei break up at high temperature
4 Molecules break up at high temperature
PHXII13:NUCLEI

363758 Consider the following reaction
\({ }_{1}^{1} H+{ }_{1}^{3} H \rightarrow{ }_{1}^{2} H+{ }_{1}^{2} H\). The atomic masses are given as
\(m\left({ }_{1}^{1} H\right)=1.007825 \,amu\)
\(m\left({ }_{1}^{2} H\right)=2.014102\,a m u\)
\(m\left( {_1^3H} \right) = 3.016049\,amu\)
The \(Q\) value of the above reaction will be

1 \( - 4.03\,MeV\)
2 \( - 2.01\,MeV\)
3 \(2.01\,MeV\)
4 \(4.03\,MeV\)
PHXII13:NUCLEI

363759 Assertion :
It is not possible to use \(^{35}Cl\) as the fuel for fusion energy.
Reason :
The binding energy of \(^{35}Cl\) is too small.

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.
Join With Us for More Updates
PHXII13:NUCLEI

363755 In nuclear reaction, \(_2H{e^4}{ + _Z}{X^A}{ \to _{Z + 2}}{Y^{A + 3}}{ + _Z}{M^A}\,\,M\) denotes

1 electron
2 positron
3 proton
4 neutron
PHXII13:NUCLEI

363756 Which of these is a fusion reaction?

1 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
2 \(_1^3{\rm{H}} + _1^2{\rm{H}} \to _2^4{\rm{He}} + _1^1n\)
3 \(_{92}^{238}{\rm{U}} \to _{82}^{206}{\rm{Pb + 8}}\left( {_2^4{\rm{He}}} \right) + 6\left( {_{ - 1}^0\beta } \right)\)
4 \({\mathop{\rm None}\nolimits} \,\,{\mathop{\rm of}\nolimits} \,\,{\mathop{\rm these}\nolimits} \)
PHXII13:NUCLEI

363757 Fusion reaction takes place at high temperature because

1 Kinetic energy is high enough to overcome the coulomb repulsion between nuclei
2 Atoms get ionised at high temperature
3 Nuclei break up at high temperature
4 Molecules break up at high temperature
PHXII13:NUCLEI

363758 Consider the following reaction
\({ }_{1}^{1} H+{ }_{1}^{3} H \rightarrow{ }_{1}^{2} H+{ }_{1}^{2} H\). The atomic masses are given as
\(m\left({ }_{1}^{1} H\right)=1.007825 \,amu\)
\(m\left({ }_{1}^{2} H\right)=2.014102\,a m u\)
\(m\left( {_1^3H} \right) = 3.016049\,amu\)
The \(Q\) value of the above reaction will be

1 \( - 4.03\,MeV\)
2 \( - 2.01\,MeV\)
3 \(2.01\,MeV\)
4 \(4.03\,MeV\)
PHXII13:NUCLEI

363759 Assertion :
It is not possible to use \(^{35}Cl\) as the fuel for fusion energy.
Reason :
The binding energy of \(^{35}Cl\) is too small.

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.