The actual atomic mass of .(20)Ca^(40) i...

The actual atomic mass of `._(20)Ca^(40)` is 39.96259 amu. Find the binding energy for this nuclide, using 1.008665 amu for the mass of a neutron and 1.007825 amu for the mass of atomic hydrogen. Also calculate the binding energy per nucleon.

Similar Questions

Explore conceptually related problems

The atomic mass of ._(8)O^(16) is 16.000000 amu. Calculate the binding energy of ._(8)O^(16) in MeV per nucleon.

Calculate the binding energy of a deutron. Given that mass of proton = 1.007825 amu mass of neutron = 1.008665 amu mass of deutron = 2.014103 amu

The atomic mass of B^(10) is 10.811 amu . Find the binding energy of B^(10) nucleus . The mass of electron is 0.0005498 amu. The mass of proton is m_(p) = 1.007276 amu . The mass of neutron is m_(n) = 1.008665 amu.

Calculate the binding energy of a deutron. Given that mass of proton = 1.007825 a.m.u mass of neutron = 1.008665 a.m.u . mass of a deutron = 2.014103 a.m.u .

The observed massof ""_(26)^(56)Fe is 55.9375 amu. Using the masses of proton and neutron as 1.00732 amu and 1.00866 amu respectively, calculate the binding energy per nucleon in joules

The atomic mass of .^(16)O is 15.995 amu while the individual masses of proton and neutron are 1.0073 amu and 1.0087 amu respectively. The mass of electron is 0.000548 amu. Calculate the binding energy of the oxygen nucleus.

If the mass defect of ""_(4)^(9)X is a.m.u., then binding energy per nucleon is (1 a.m.u. = 931.5 MeV):

The actual atomic mass of `._(20)Ca^(40)` is 39.96259 amu. Find the binding energy for this nuclide, using 1.008665 amu for the mass of a neutron and 1.007825 amu for the mass of atomic hydrogen. Also calculate the binding energy per nucleon.

Similar Questions

Recommended Questions