Use the following data:Mass DifferenceA = M- A (MeV)(at. mass – at.mass No.)Major Radiations,Energies (MeV), andFrequency perDisintegration (%)NaturalТуре ofDecayAbundanceNuclide(%)Half-LifeЕС 60%B* :0.843 maxy:0.127 (13%), 0.511 (80%, y±),1.38 (78%), 1.76 (7%), 1.92 (15%),Cо X гays-56.1036.08 h28B+40%Y:0.014 (9%), 0.122 (86%).0.136 (11%), Fe X rays5:0.318 max (avg 0.096) (99.92%)1.491 max (0.08%)y:1.173 (99.98%), 1.332 (99.90%)-59.339ЕС270.9 dCo-61.6515.271 y(a) Calculate the Q values for the decay of Ni by positron emission and by electron capture.(b) Draw the decay scheme

The nucleus consists of neutrons and protons. The nuclear force binds them together overcoming the…

Use the following data: Mass Difference A =M- A (MeV) (at. mass – at. mass No.) Major Radiations, Energies (MeV), and Frequency per Disintegration (%) Natural Abundance Туре of Decay Nuclide (%) Half-Life ЕС 60% B*40% 36.08 h B* :0.843 max y:0.127 (13%), 0.511 (80%, y±), 1.38 (78%), 1.76 (7%), 1.92 (15%), Co X rays -56.10 y:0.014 (9%), 0.122 (86%), 0.136 (11%), Fe X rays B :0.318 max (avg 0.096) (99.92%) 1.491 max (0.08%) y:1.173 (99.98%), 1.332 (99.90%) -59.339 EC 270.9 d co 5.271 y -61.651 (a) Calculate the Q values for the decay of Ni by positron emission and by electron capture. (b) Draw the decay scheme

Use the following data: Mass Difference A =M- A (MeV) (at. mass – at. mass No.) Major Radiations, Energies (MeV), and Frequency per Disintegration (%) Natural Abundance Туре of Decay Nuclide (%) Half-Life ЕС 60% B40% 36.08 h B :0.843 max y:0.127 (13%), 0.511 (80%, y±), 1.38 (78%), 1.76 (7%), 1.92 (15%), Co X rays -56.10 y:0.014 (9%), 0.122 (86%), 0.136 (11%), Fe X rays B :0.318 max (avg 0.096) (99.92%) 1.491 max (0.08%) y:1.173 (99.98%), 1.332 (99.90%) -59.339 EC 270.9 d co 5.271 y -61.651 (a) Calculate the Q values for the decay of Ni by positron emission and by electron capture. (b) Draw the decay scheme

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Question

Use the following data:
Mass Difference
A = M- A (MeV)
(at. mass – at.
mass No.)
Major Radiations,
Energies (MeV), and
Frequency per
Disintegration (%)
Natural
Туре of
Decay
Abundance
Nuclide
(%)
Half-Life
ЕС 60%
B* :0.843 max
y:0.127 (13%), 0.511 (80%, y±),
1.38 (78%), 1.76 (7%), 1.92 (15%),
Cо X гays
-56.10
36.08 h
28
B+40%
Y:0.014 (9%), 0.122 (86%).
0.136 (11%), Fe X rays
5:0.318 max (avg 0.096) (99.92%)
1.491 max (0.08%)
y:1.173 (99.98%), 1.332 (99.90%)
-59.339
ЕС
270.9 d
Co
-61.651
5.271 y
(a) Calculate the Q values for the decay of Ni by positron emission and by electron capture.
(b) Draw the decay scheme

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