Energy is released in nuclear fission due to:

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(A) In a nuclear process,energy is released if the binding energy per nucleon of the daughter products increases.In the nuclear fission process,the to

Vedclass · Accepted Answer

Total binding energy of fragments is more than the binding energy of the parental element.

Vedclass · Answer

(A) In a nuclear process,energy is released if the binding energy per nucleon of the daughter products increases.In the nuclear fission process,the total binding energy of the fragments formed is greater than the binding energy of the parent fissionable nucleus.This difference in binding energy is released as energy,consistent with the mass-energy equivalence principle where the mass defect is converted into energy.

Similar Questions

If the binding energy per nucleon of deuteron $({ }_1 H^2)$ is $1.15 \text{ MeV}$ and an $\alpha$-particle has a binding energy of $7.1 \text{ MeV}$ per nucleon,then the energy released per nucleon in the given reaction is ${ }_1 H^2 + { }_1 H^2 \rightarrow { }_2 He^4 + Q$. (in $\text{ MeV}$)

Fission of nuclei is possible because the binding energy per nucleon in them

Heavy water is

Fast neutrons can easily be slowed down by

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 ........ $MeV$.

Vedclass Test Series

Exam Paper Generator

Online Exam Module