A stationary uranium nucleus (238U) decay with emission of alpha particle and total kinetic energy. 238/92U ↣234/90Th+ 4/2a what is Kinetic energy of patricle?

1 Answer
Nov 28, 2017

#K_{\alpha} = 5.203# #MeV = 8.336\times10^{-13}# #J#

Explanation:

#U_92^238 \rightarrow Th_90^234 + \alpha_2^4#

Momentum Conservation: #\quad vecP_i = vec P_f#
#vec P_{U} = vec P_{Th} + vec P_{\alpha}#

The Uranium nucleus is at rest (#vec P_U = vec 0#).
#vec P_{Th} + vec P_{\alpha} = vec 0; \qquad vec P_{\alpha} = - vec P_{Th}; \qquad P_{\alpha} = P_{Th} = P_0#

Kinetic Energies:
#K_{\alpha} = P_{\alpha}^2/(2m_{\alpha}); \qquad K_{Th} = P_{Th}^2/(2m_{Th}^234);#

#P_{\alpha} = P_{Th} = P_0;#

#m_{U}^238 = 238.050788 \quad u; \qquad m_{Th}^234 = 234.04360123 \quad u;#
#m_{\alpha} = 4.001506 \quad u;#

#K_{\alpha}/K_{Th} = (P_{\alpha}/P_{Th})^2(m_{Th}/m_{\alpha}) = m_{Th}/m_{\alpha} = (234.0436\quad u)/ (4.001\quad u) = 58.49#

#K_{Th} = K_{\alpha}/58.49 = 0.017095.K_{\alpha};# ...... (1)

Fission Energy - Q Value:

#Q = \Deltam.c^2 = [m_U - (m_{Th} + m_{\alpha})].c^2 = 0.005681 u.c^2 = #

To convert the atmoc mass unit (u) to #MeV# use the conversion factor,
#1 u = 931.5# #(MeV)/c^2#

Thus the energy released in the fission is, #\quad Q = 5.292# #MeV#. This energy is distributed between the alpha particle and the Thorium-234 nucleus as kinetic energies.

#K_{\alpha} + K_{Th} = Q = 5.292# #MeV# ...... (2)

Substituting (1) in (2) to eliminate #K_{Th}#,

#(1 + 0.017095)K_{\alpha} = 5.292# #MeV#

#K_{\alpha} = 5.203# #MeV = 8.336\times10^{-13}# #J#