When two dentrons (.(1)H^(2)) fuse to fr...

When two dentrons `(._(1)H^(2))` fuse to from a helium nucleus `._(2)He^(4), 23.6 MeV` energy is released. Find the binding energy of helium if it is 1.1 MeV for each nucleon of deutrim.

Similar Questions

Explore conceptually related problems

In fusion reaction ._(1)H^(2) + ._(1)H^(2) to ._(2)He^(4) + Q Find the energy released while binding energy per nucleon for deuterium is 1.12 MeV and for helium nucleus is 7.07 MeV

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)

The mass defect of He_(2)^(4) He is 0.03 u. The binding energy per nucleon of helium (in MeV) is

The mass defect of ""_(2)^(4)He is 0.03 u. The binding energy per nucleon of helium (in MeV) is

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 ?

The binding energy of an element is 64 MeV . If BE/nucleon is 6.4 the number of nucleons are :

When two dentrons `(._(1)H^(2))` fuse to from a helium nucleus `._(2)He^(4), 23.6 MeV` energy is released. Find the binding energy of helium if it is 1.1 MeV for each nucleon of deutrim.

Similar Questions

Recommended Questions