An atom of 64Ni has an experimentally determined nuclear mass of 63.9280 amu. Calculate the mass...

An atom of 64Ni has an experimentally determined nuclear mass of 63.9280 amu. Calculate the mass...

An atom of 64Ni has an experimentally determined nuclear mass of 63.9280 amu. Calculate the mass defect, Δm, in atomic mass units (amu).

An atom of 81^Br has an experimentally determined nuclear mass of 80.9163 amu. Calculate the mass...

An atom of 81^Br has an experimentally determined nuclear mass of 80.9163 amu. Calculate the mass defect, Δm, in atomic mass units (amu).

An atom of 49K has a mass of 48.965514 amu. Calculate the binding energy in MeV...

An atom of 49K has a mass of 48.965514 amu. Calculate the binding energy in MeV per atom. Use the masses: mass of 1H atom = 1.007825 amu mass of a neutron = 1.008665 amu 1 amu = 931.5 MeV

The mass of a lithium?7 atom is 7.016003 amu. What is the nuclear binding energy of...

The mass of a lithium?7 atom is 7.016003 amu. What is the nuclear binding energy of a lithium?7 nucleus in units of kJ/mol and eV/nucleus? Enter your answers in scientific notation.

a) Calculate the mass defect for U-235 which has a mass of 235.04392 amu. I got...

a) Calculate the mass defect for U-235 which has a mass of 235.04392 amu. I got 1.865 but it's saying its wrong. b) Calculate the nuclear binding energy per nucleon (in MeV) for U-235 which has a mass of 235.04392 amu.

You know that: mass of proton (mp) = 1.007276 amu, mass of neutron (mn) = 1.008665...

You know that: mass of proton (mp) = 1.007276 amu, mass of neutron (mn) = 1.008665 amu, and mass of electron (me)= 5.485799 x 10-4 amu. Calculate the mass defect (in amu) and nuclear binding energy (in J/nucleon) for Carbon-12 (nuclear mass: 11.996708 amu)

Calculate the mass defect in amu for Li-6 with a mass of 6.01348 amu. (Enter your...

Calculate the mass defect in amu for Li-6 with a mass of 6.01348 amu. (Enter your answer with 5 decimal places and remember to use the appropriate sign.)

Calculate the amount of energy produced in a nuclear reaction in which the mass defect is...

Calculate the amount of energy produced in a nuclear reaction in which the mass defect is 0.187456 amu. 9.3318 × 10−20 J 3.11278 × 10−28 J 1.6847 × 1016 J 2.7976 × 10−11 J

Unlike chemical reactions, for which mass is conserved, nuclear reactions result in slight changes in mass....

Unlike chemical reactions, for which mass is conserved, nuclear reactions result in slight changes in mass. When mass is lost, it becomes energy according to the equation ΔE=Δm⋅c2 where ΔE is the energy in joules, Δm is the mass defect in kilograms, and c is the speed of light (c=3.00×108 m/s). The mass defect is the difference between the total mass of the products and the total mass of reactants. The following values can be used to calculate the mass...

Calculate the quantity of energy produced per mole of U-235 (atomic mass = 235.043922 amu) for...

Calculate the quantity of energy produced per mole of U-235 (atomic mass = 235.043922 amu) for the neutron-induced fission of U-235 to produce Te-137 (atomic mass = 136.9253 amu) and Zr-97 (atomic mass = 96.910950 amu).