Mass Energy and Nuclear Binding Energy
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PHXII13:NUCLEI

363667 The binding energy of a nucleus is equivalent to

1 mass of nucleus
2 mass of protons
3 mass of neutron
4 the mass defect of nucleus
PHXII13:NUCLEI

363668 Assertion :
In nuclear reaction, change in \(B E\) per nucleon is generally less than \(1 \%\).
Reason :
Mass defect in nuclear reactions is less than \(1 \%\).

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

363669 The total binding energy of \(_1{H^2}{,_2}H{e^4}{,_{25}}F{e^{56}}\,and{\,_{92}}{U^{235}}\) nuclei are \(2.22,28.3,492\,and\,786\,MeV\) respectively. Identify the most stable nucleus of the following:

1 \(_{28}F{e^{56}}\)
2 \(_1{H^2}\)
3 \(_{92}{U^{238}}\)
4 \(_2H{e^4}\)
PHXII13:NUCLEI

363670 A radioactive nucleus has specific binding energy \('{E_1}'\). It emits an \(\alpha \) particle. The resulting nucleus has specific binding energy \('{E_2}'\) Then

1 \({E_2} = {E_1}\)
2 \({E_2} < {E_1}\)
3 \({E_2} > {E_1}\)
4 \({E_2} = 0\)
KCET - 2012
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PHXII13:NUCLEI

363667 The binding energy of a nucleus is equivalent to

1 mass of nucleus
2 mass of protons
3 mass of neutron
4 the mass defect of nucleus
PHXII13:NUCLEI

363668 Assertion :
In nuclear reaction, change in \(B E\) per nucleon is generally less than \(1 \%\).
Reason :
Mass defect in nuclear reactions is less than \(1 \%\).

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

363669 The total binding energy of \(_1{H^2}{,_2}H{e^4}{,_{25}}F{e^{56}}\,and{\,_{92}}{U^{235}}\) nuclei are \(2.22,28.3,492\,and\,786\,MeV\) respectively. Identify the most stable nucleus of the following:

1 \(_{28}F{e^{56}}\)
2 \(_1{H^2}\)
3 \(_{92}{U^{238}}\)
4 \(_2H{e^4}\)
PHXII13:NUCLEI

363670 A radioactive nucleus has specific binding energy \('{E_1}'\). It emits an \(\alpha \) particle. The resulting nucleus has specific binding energy \('{E_2}'\) Then

1 \({E_2} = {E_1}\)
2 \({E_2} < {E_1}\)
3 \({E_2} > {E_1}\)
4 \({E_2} = 0\)
KCET - 2012
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PHXII13:NUCLEI

363667 The binding energy of a nucleus is equivalent to

1 mass of nucleus
2 mass of protons
3 mass of neutron
4 the mass defect of nucleus
PHXII13:NUCLEI

363668 Assertion :
In nuclear reaction, change in \(B E\) per nucleon is generally less than \(1 \%\).
Reason :
Mass defect in nuclear reactions is less than \(1 \%\).

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

363669 The total binding energy of \(_1{H^2}{,_2}H{e^4}{,_{25}}F{e^{56}}\,and{\,_{92}}{U^{235}}\) nuclei are \(2.22,28.3,492\,and\,786\,MeV\) respectively. Identify the most stable nucleus of the following:

1 \(_{28}F{e^{56}}\)
2 \(_1{H^2}\)
3 \(_{92}{U^{238}}\)
4 \(_2H{e^4}\)
PHXII13:NUCLEI

363670 A radioactive nucleus has specific binding energy \('{E_1}'\). It emits an \(\alpha \) particle. The resulting nucleus has specific binding energy \('{E_2}'\) Then

1 \({E_2} = {E_1}\)
2 \({E_2} < {E_1}\)
3 \({E_2} > {E_1}\)
4 \({E_2} = 0\)
KCET - 2012
For More Updates join with Us
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PHXII13:NUCLEI

363667 The binding energy of a nucleus is equivalent to

1 mass of nucleus
2 mass of protons
3 mass of neutron
4 the mass defect of nucleus
PHXII13:NUCLEI

363668 Assertion :
In nuclear reaction, change in \(B E\) per nucleon is generally less than \(1 \%\).
Reason :
Mass defect in nuclear reactions is less than \(1 \%\).

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

363669 The total binding energy of \(_1{H^2}{,_2}H{e^4}{,_{25}}F{e^{56}}\,and{\,_{92}}{U^{235}}\) nuclei are \(2.22,28.3,492\,and\,786\,MeV\) respectively. Identify the most stable nucleus of the following:

1 \(_{28}F{e^{56}}\)
2 \(_1{H^2}\)
3 \(_{92}{U^{238}}\)
4 \(_2H{e^4}\)
PHXII13:NUCLEI

363670 A radioactive nucleus has specific binding energy \('{E_1}'\). It emits an \(\alpha \) particle. The resulting nucleus has specific binding energy \('{E_2}'\) Then

1 \({E_2} = {E_1}\)
2 \({E_2} < {E_1}\)
3 \({E_2} > {E_1}\)
4 \({E_2} = 0\)
KCET - 2012