(C) In the proton-proton cycle, four hydrogen nuclei $(^{1}H^{1})$ fuse to form one helium nucleus $(^{2}He^{4})$ along with two positrons, two neutri

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(C) In the proton-proton cycle, four hydrogen nuclei $(^{1}H^{1})$ fuse to form one helium nucleus $(^{2}He^{4})$ along with two positrons, two neutrinos, and energy.The mass defect $(\Delta m)$ for this reaction is approximately $0.0286 \; u$.Since $1 \; u$ is equivalent to $931.5 \; MeV$, the energy released is $Q = 0.0286 \times 931.5 \; MeV \approx 26.7 \; MeV$.Therefore, the correct option is $C$.

Class 12 Physics Nuclei Nuclear Fission, Fusion and Nuclear Reactor

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In the proton-proton cycle, four hydrogen nuclei combine to release energy of ....... $MeV$.

A
$2.67 \; MeV$
B
$2.67 \; keV$
C
$26.7 \; MeV$
D
$26.7 \; keV$

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Nuclei

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Nuclear Fission, Fusion and Nuclear Reactor

If there is a mass defect of $0.1\%$ in a nuclear fission process,how much energy will be released in the fission of $1\, kg$ of mass?

Medium

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The binding energy of deuteron $_1^2H$ is $1.112 \, MeV$ per nucleon and an $\alpha$-particle $_2^4He$ has a binding energy of $7.047 \, MeV$ per nucleon. Then in the fusion reaction $_1^2H + _1^2H \to _2^4He + Q$,the energy $Q$ released is ........ $MeV$.

DifficultIIT 1996

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The binding energy per nucleon of deuteron $({ }_{1} H^{2})$ and the helium atom $({ }_{2} He^{4})$ are $1.1 \ MeV$ and $7 \ MeV$ respectively. If two deuteron nuclei fuse to form a single helium nucleus,then the energy released is: (in $MeV$)

MediumKCET 2013

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In nuclear fission,the fission reaction proceeds with a projectile. Which of the following suits the best?

Easy

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When Uranium is bombarded with neutrons,it undergoes fission. The fission reaction can be written as ${}_{92}U^{235} + {}_0n^1 \to {}_{56}Ba^{141} + {}_{36}Kr^{92} + 3x + Q$,where three particles named $x$ are produced and energy $Q$ is released. What is the name of the particle $x$?

MediumJEE MAIN 2013

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In the proton-proton cycle, four hydrogen nuclei combine to release energy of ....... $MeV$.

Similar Questions

If there is a mass defect of $0.1\%$ in a nuclear fission process,how much energy will be released in the fission of $1\, kg$ of mass?

The binding energy of deuteron $_1^2H$ is $1.112 \, MeV$ per nucleon and an $\alpha$-particle $_2^4He$ has a binding energy of $7.047 \, MeV$ per nucleon. Then in the fusion reaction $_1^2H + _1^2H \to _2^4He + Q$,the energy $Q$ released is ........ $MeV$.

The binding energy per nucleon of deuteron $({ }_{1} H^{2})$ and the helium atom $({ }_{2} He^{4})$ are $1.1 \ MeV$ and $7 \ MeV$ respectively. If two deuteron nuclei fuse to form a single helium nucleus,then the energy released is: (in $MeV$)

In nuclear fission,the fission reaction proceeds with a projectile. Which of the following suits the best?

When Uranium is bombarded with neutrons,it undergoes fission. The fission reaction can be written as ${}_{92}U^{235} + {}_0n^1 \to {}_{56}Ba^{141} + {}_{36}Kr^{92} + 3x + Q$,where three particles named $x$ are produced and energy $Q$ is released. What is the name of the particle $x$?

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