Model Railgun Project - Don't have a grasp of the physics

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Homework Help Overview

The discussion revolves around the physics of railguns, specifically focusing on the relationship between rail length and projectile distance. Participants explore the underlying principles of motion and energy transfer in this context.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the impact of rail length on projectile distance and velocity, referencing concepts such as kinetic energy and acceleration. There are attempts to relate basic physics equations to the railgun's operation, with some questioning the validity of their assumptions.

Discussion Status

The discussion is ongoing, with various participants offering insights into the physics involved. Some guidance has been provided regarding the relationship between force, mass, and acceleration, but there is no explicit consensus on the mathematical modeling of multiple rail configurations.

Contextual Notes

Participants express uncertainty about the application of certain physics principles to railguns and the assumptions underlying their calculations. There is mention of limited understanding regarding configurations involving multiple pairs of rails.

CuriousCynic
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My hypothesis is that increasing rail length will increase the distance a projectile travels, ( which is true) unfortunately I can't quite make sense of physics behind railguns to understand how to prove the hypothesis mathematically. Thank you for your time.
 
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Consider how the work done affects the kinetic energy and hence the velocity the projectile will leave the rail gun at.
 
I don't know if this still works for railguns...but F= ma, get a. then vf^2 = vi^2 + 2ax
vf = final velocity
vi = initial velocity
x = rail length
And to answer your question, a higher vf will surely increase the distance the projectile travels.
 
Please disregard what I stated previously.

A railgun can achieve very high muzzle velocities because of the constant acceleration that is achieved. Meaning, that, the longer the barrel, the higher the muzzle velocity will be.

If you were looking for a few formulas :
F = ma ; F -> force generated by magnetic field.
.; m -> mass of projectile
. ; a -> acceleration of said projectile due to F

then v = sqrt(2*a*x) ; v -> muzzle velocity
. ; a -> as above
. ; length of barrel

This is all assumed that you will only use 1 pair of rails. I don't know the mathematics behind more than 1 pair. To me it seems though as if it scales linearly, which can't be right.
 

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