Hai! Stirk here! Most of you probably don't know me, I mostly stick around the FG&RPG. A few of you may have played that old mod I made.
Anyway, I once came across a debate and am now unreasonably bothered by it. That debate would, of course, be the question question in the title: Would laser weapons have recoil?
I say, "Yes!" heartily, but when investigating the topic I found it quite frankly stunning and baffling how many people think this answer is "No!" for some reason. So this thread will be a place for me to either be proven wrong and joining the chorus of No! Or proven right, spreading Truth and Justice throughout the world as a HERO FOR SCIENCE!
~~Opening Argument~~
The main cause of recoil is momentum. The
Wikipedia article goes over this in lots more detail! Light, despite having no mass, still has momentum. For a laser weapon to do the equivalent damage of a modern kinetic firearm, it would still need significant energy.
Its been a while since I took physics class, and I am currently hurrying because this has been *super* distracting me from two tests I have tomorrow, so take this with a grain of salt
. What are your thoughts on the issue?
***The Answer***
Well, we have come to the point I am satisfied with the Answer! Thanks to everyone who answered, it was fun and informative! The following is Sensei's arguments, where he puts numbers to everything.
I think we've answered the question of whether a laser gun would have recoil that would affect aim. In case anyone's still doubting though, perhaps we should calculate the actual recoil for comparison with guns?
Edit: Warning, typed on phone, uncorrected selling mistakes ahead!
First we need to estimate the wattage of the laser.
Let's assume we want our laser to be a effective as a firearm- so it should be able to inflict a lethal wound in, oh, 1/20 of a second. This means we might need a lot more wattage compared to the LaWS, which takes seconds to kill, but on the other hand we'll assume we are aiming at flesh, not metal.
To create the smoking hole we see in movies, I think we want to sublimate (turn instantly to gas) muscle. The specific heat of muscle is about 3600 j/kg/c. I couldn't find a good number for how hot muscle needs to be to turn to vapor (now why could that be?) But let's say 250 C. This might be a low estimate, but I touched a baking tray that hot once and the skin there was gone, and I'm sure it didn't actually reach 250C itself. Now, the area of, oh, a laser pointer is (guessing again) about 0.2 square centimeters. Multiply that by a 30cm thick person and we get 6 cubic centimeters of muscle. At a specific mass of 1.06kg/L this is about 0.006kg. To heat that much muscle from 37C to 250C (so by 223C) would take 223*3600*0.006 = 4816 joules. Let's just call it 5kJ.
To deliver that in 1/20 of a second would require 100kW. This is bad news and good news. It falls in between the LaWS and that one laser that took up a whole jet for shooting down missiles. On the upside, rayleigh scattering should make the beam visible like in fallout.
Oh one other thing, that's energy delivered to the target. Solid state lasers are about 25% electrically efficient, so we're probably looking at 400kW of electrical power. Let's assume it can only fire once a second while capacitors recharge, and our sci-fi power source only needs to generate 20kW, the equivalent of a modern diesel generator about the size of a fridge. Oh, also the capacitor bank would be the size of another fridge or two, and the laser itself would be the size of a fourth fridge. But let's assume that our laser is close to 100% efficient (or you'd be wasting 15kJ as heat every time you shoot, heating a 3kg steel gun to 100C after ten shots) and your Micro Fusion Reactor is capable of putting out the 100kW it would still need while fitting in a handheld gun, the same amount of power as a 2015 Fiat 500.
So, 100kW for 1/20 of a second, to make a laser pulse that is similar in lethality to a gunshot, or more if the target is armored.
So how much force does that 100kW laser make, in newtons?
I think we can treat our laser gun as a black body emitter. From the wiki article on radiation pressure, we can cancel out some stuff about area (because it's pressure) and we F = E/C. Our energy was 5kJ, and C is 3x108. The physical energy transferred back on the gun (and the shooter's shoulder) is 0.000017J. Over 1/20 of a second, this is 0.00034 Newtons.
Is that a lot?
No. A winchester .308 rifle weighing 4kg pushes back at 2.2m/s (I don't know the exact acceleration/force because I don't know the duration for which gas leaves the barrel, but if it was fired while dangling on a rope it would swing back at that speed). Our laser gun with the same mass would be accelerated to 0.0000042 m/s. So, it's about two ten-millionths of the recoil of a .308 rifle.
Over a 10cm2 rifle butt, this pressure would be literally imperceptible. Just how small is this force? A common number 12 sewing needle has 0.074mm of diameter at its tip, or 4.07x10-9 square meters of area. If the thr gun was fired while hanging from a rope, and it's butt was replaced with that sewing needle, it would have a force of 70000 pascals, or 70kPa. This is about 10PSI.
This means that you you pressed a needle against yourself by firing the laser gun, you could just feel it (unless the gun's inertia prevented even that from happening in the 1/20 second firing time), but it wouldn't draw blood. Don't try that trick with the winchester .308 rifle!
In summary:
I hope thus has helped put the radiation pressure from a hogh-powered laser in real terms. It exists, but only barely, and you would need delicate instruments to observe it. It would be so gentle, it could press a sharp needle against your bare skin without hurting you. It would absolutely, definitely, not affect your aim, even if the laser were more powerful than the very biggest lasers that have currently even been built or planned. It wouldn't affect t your sim even if my math was wrong and the laser needs to be 1000 times more powerful.
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Topic: Would Laser Rifles or Pistols Have Recoil? (Read 5953 times)