d) The equation below describes the disintegration of a bismuth nucleus into a thallium nucleus and an alpha-particle. During the reaction energy Q is released. 212 Bi 83 He + TI + energy released Q. 208 81 2 The masses in the atomic mass unit u are as follows: 212 83 208 Bi= 211.99127 u, TI = 207.98201 u and He = 4.002050 u. 81 You may assume that 1u is equivalent to 931 MeV. Calculate: i) The loss of mass during the reaction. ii) kinetic energy of the products.

d) The equation below describes the disintegration of a bismuth nucleus into a thallium nucleus and an alpha-particle. During the reaction energy Q is released. 212 Bi 83 He + TI + energy released Q. 208 81 2 The masses in the atomic mass unit u are as follows: 212 83 208 Bi= 211.99127 u, TI = 207.98201 u and He = 4.002050 u. 81 You may assume that 1u is equivalent to 931 MeV. Calculate: i) The loss of mass during the reaction. ii) kinetic energy of the products.

Modern Physics

3rd Edition

ISBN:9781111794378

Author:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Publisher:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Chapter14: Nuclear Physics Applications

Section: Chapter Questions

Problem 58P

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Similar questions

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