Answered: Part A Which stable nuclei have a… | bartleby

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Part A
Which stable nuclei have a diameter of 7.46 fm ?
30 Si
O 28 Si
O 35 CI
O 32s
O 345
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4 of 6 The activation energy of 231 Th is 8.3MeV. If a nucleus of 230 Th captures a thermal neutron, determine whether fission is likely to be induced. b) Explain how the likely outcome of the process would change without the contribution of the pairing effect. Include an energy level sketch in your explanation. c) A spherical nucleus of mass number A and of radius R is deformed into an ellipsoid. Rota- tional symmetry about one axis is mantained and the volume is kept constant. a = R(1+ €) is the half-length of the long axis of the ellipsoid and b R/1+ the half-length of the short ones ( < 1 is a small positive number). Show that the surface term in the semi- empirical mass formula for the binding energy changes, up to the second order in ε, to = Es = as A2/3 12/3 (1 + 2/3/2²). 5 where as is the surface term constant. Hint: Use the approximate formula for the surface area of an ellipsoid Sellipsod = 4πT ab + aPcP + bP \1/p 3 where a, b, c are the half-lengths of the principal axes and…
2. 33As disintegrates to 32Ge in 68% of the cases, and to 34Se otherwise. T₁ for the 2 parent atoms is 17.9 d. a. What is the decay constant for 33 As? b. What is the activity of a source containing 2.0 × 10¹7 atoms of 33 As? Express in becquerels and in curies.
Search (Alt+Q) Pau References Mailings Review View Help There are three naturally occurring stable isotopes of magnesium: 24MB, 25Mg, and 2°Mg, which have relative abundances on Earth of 79%, 10%, and 11% respectively. Note that the atomic number of magnesium is 12. a) Calculate the binding energy (in eV) of magnesium-24, which has an atomic mass of 23.9850 AMU. The mass of a neutron is 1.0087 amu and the mass of a proton is 1.0073 amu. Using your results from parts (i) and (ii) discuss how the nucleus is held together. b) The radioisotope of magnesium with the longest half-life is magnesium-28, with a half-life of 20.9 hrs. Magnesium-28 decays through B- decay into aluminium-28. With reference to fundamental particles, describe the process which occurs in beta minus decay. Hence determine the equation for the decay of magnesium-28 into aluminum-28.
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Please help me with the following question and pls make sure its correct 100% its important, thanks Question: Answer the following question and be sure to review Example 30.4 before attempting these problems. Part A. A 11,460-year-old archeological specimen has a 14C activity of 6.5×10−2 Bq. What is the carbon mass of the specimen? Express your answer with the appropriate units. ( possible in grams) Part B . A 7.0×10−2 kg tumor is treated with a high-energy proton beam. If the equivalent dose delivered to the tumor is 1900 rem, how much energy did the tumor absorb? Express your answer with the appropriate units. ( in J)
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Compute the approximate nuclear radius of: U (ن) (d) Nit -12 I allatiun c Actinium-89