If a star can convert all the He nuclei completely into oxygen nuclei. The energy released per oxygen nuclei is (Mass of the helium nucleus is `4.0026` amu and mass of oxygen nucleus is `15.9994` amu)

Helium nuclei combine to form an oxygen nucleus. The energy released in the reaction is if m_(O)=15.9994 "amu" and m_(He)=4.0026 "amu"

When two nuclei (with A=8) join to form a heavier nucleus , the binding energy (B.E) per nucleon of the heavier nuclei is

Find the energy required to split ._8^16O nucleus into four alpha particles. The mass of an alpha -particle is 4.002603 u and that of oxygen is 15.994915 u.

Assertion : In a nuclear process energy is released if total binding energy of daughter nuclei is more than the total binding energy of parent nuclei. Reason: If energy is released then total mass of daughter nuclei is less than the total mass of parent nuclei.

Assertion : In a nuclear process energy is released if total binding energy of daughter nuclei is more than the total binding energy of parent nuclei. Reason: If energy is released then total mass of daughter nuclei is less than the total mass of parent nuclei.

Binding energy per nucleon for helium nucleus (""_(2)^(4)He) is 70 MeV. Find the value of mass defect for helium nucleus.

This binding energy per nucleon for the parent nucleus is E_(1) and that for the daughter nuclei is E_(2) . Then

Calculate the packing fraction of alpha -particle from the following data : Mass of helium nucleus =4.0028 amu Mass of free proton =1.00758 amu Mass of free neutron =1.00897 amu

Find the energy required to split ._(8)^(16)O nucleus into four alpha - particles. The mass of an alpha - particle is 4.002603u and that of oxygen is 15.994915u.

The mass defect for the nucleus of helium is 0.0303 a.m.u. What is the binding energy per nucleon for helium in MeV ?