Rail Guns: Dual Rods & Current Flow

AI Thread Summary
Rail guns utilize electromagnetic forces to propel projectiles along conductive rails, and the dynamics change when two rods are involved. If both rods are placed in a rail gun, they will experience forces based on their current flow and magnetic interactions, potentially repelling each other depending on the design. The engineering of the rail gun is crucial, as it determines how the rods interact and whether they can be effectively launched together. Comparatively, particle accelerators manage multiple charged particles by spacing them adequately to minimize repulsion effects. Understanding these principles is essential for optimizing rail gun designs for dual projectile launches.
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Ok, so we learned about rail guns today (they are so freakin' cool), and I understand how it moves one rod down the rails... however, what happens if there are two?
Won't both move down the rails (away from battery) since the current is flowing clockwise, or will they repel each other?
 
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Well, that's more of an engineering question than anything else. It would depend on the design of the gun.

Particle accelerators, like the Stanford Linear Accelerator, propel multiple charged particles at the same time by (in the case of SLAC, at least) having them "surf" on microwaves. The electrons would repel each other, but they're far enough apart that the design of the accelerator minimizes the effects of that interaction.
 

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