Difference between revisions of "Center of Mass for Stationary Target"
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− | File:Init_e_Mom_CM.png|'''Figure 5.1.3:''' Initial momentum for | + | File:Init_e_Mom_CM.png|'''Figure 5.1.3:''' Initial momentum for lab frame electron incident at 11GeV as seen in the center of mass frame. |
− | File:Init_Mol_Mom_CM.png|'''Figure 5.1.4:''' Initial momentum for lab frame | + | File:Init_Mol_Mom_CM.png|'''Figure 5.1.4:''' Initial momentum for a lab frame stationary particle as seen in the center of mass frame. |
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− | File:Init_e_Theta_CM.png|'''Figure 5.1.5:''' | + | File:Init_e_Theta_CM.png|'''Figure 5.1.5:''' Initial incoming angle theta for a lab frame electron incident at 11GeV as seen in the center of mass frame. |
− | File:Init_Mol_Theta_CM.png|'''Figure 5.1.6:''' | + | File:Init_Mol_Theta_CM.png|'''Figure 5.1.6:''' Initial incoming angle theta for a lab frame stationary electron as seen in the center of mass frame. |
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Latest revision as of 18:36, 30 May 2017
4.1.1 Center of Mass for Stationary Target
For an incoming electron of 11GeV striking a stationary electron we would expect:
Inspecting the Lorentz transformation to the Center of Mass frame:
For the case of a stationary electron, this simplifies to:
which gives,
Solving for , with
Similarly, solving for
by substituting in
Using the fact that
Using the relation
This gives the momenta of the particles in the center of mass to have equal magnitude, but opposite directions.