Two deutrons each of mass m fuse to form helium resulting in release of energy E. The mass of helium formed is

Hydrogen can be fused to form helium at

Hydrogen can be fused to form helium at

Two deuterium nuclei each of mass m fuse, together to form a Helium nucleus, releasing and energy E. If c is the velocity of light, the mass of Helium nucleus formed will be

Two small nuclei of mass m fuse together to form a resulting nucleus P The mass of nucleus P is (the energy released is E)

In carbon-nitrogen nuclear fusion cycle, protons are fused to form a helium nucleus, positrons and release some energy. The number of protons fused and the number of positrons released in this process respectively are

In carbon-nitrogen nuclear fusion cycle, protons are fused to form a helium nucleus, positrons and release some energy. The number of protons fused and the number of positrons released in this process respectively are

In carbon-Nitrogen fusion cycle, protons are fused to from a helium nucleus, positrons and release some energy. The number of protons fused and the number of positrons released in this process respectively are

Two deuterons udnergo nuclear fusion to form a Helium nucleus. Energy released in this process is : (given binding energy per nucleon for deuteron = 1.1 MeV and for helium = 7.0 MeV)