(a) Explanation Given data: The nucleus composition of Radium is 88 226 Ra . Formula used: Binding energy of an atom is evaluated from the expression, BE = Δ m c 2 Here, Δ m is the mass defect in an atom. The expression for mass defect of an atom is written as, Δ m = [ Z m H atom + ( A − Z ) m n e u t r o n − m a t o m ] The conversion formula used to convert atomic mass unit ( u ) to MeV is, 1 u = ( 931.5 MeV c 2 ) Explanation: Consider the mass of Hydrogen atom to be equal to 1.007825 u , mass of a neutron equal to 1.008665 u , and mass of Radium -226 atom equal to 226.025403 u . Radium − 226 is given by 88 226 Ra . Here, Z Ra = 88 and A Ra = 226 . So, A Ra − Z Ra = 226 − 88 A Ra − Z Ra = 138 Here, the subscript Ra denotes the corresponding quantity for Radium-226. Write the expression to calculate the mass defect of Radium -226 atom. Δ m Ra = [ Z Ra m H atom + ( A Ra − Z Ra ) m n e u t r o n − m Ra ] Substitute the values of 88 for Z Ra and 1 (b) To determine The binding energy of Radon -222 ( 86 222 Rn ) atom, an alpha particle 2 4 He , and the sum of their binding energies. (c) To determine The difference in the values of binding energy evaluated in parts (a) and (b), which gives the energy released during the alpha decay of R 226 a .

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Author: ETKINA, Eugenia, Planinšič, G. (gorazd), Van Heuvelen, Alan

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Chapter 29, Problem 31P

(a)

To determine

The total binding energy of Radium -226 (88226Ra).

(b)

To determine

The binding energy of Radon -222 (86222Rn) atom, an alpha particle 24He, and the sum of their binding energies.

(c)

To determine

The difference in the values of binding energy evaluated in parts (a) and (b), which gives the energy released during the alpha decay of R226a.

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Chapter 29 Solutions

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