Interesting. I'm not sure why that would be.
I have no electrical background to even make a guess :/.
There is one thing to keep in mind with Laser weapons.
If you fire a bullet at someone, you essentially use the momentum of the bullet to locally destroy the tissue, while the overall energy of the bullet is not all that high and could only increase the temperature of the body part by some millikelvin.
In a Laser weapon however, the locally concentrated energy of the beam vaporizes a small part of the target, leading to a hopefully destructive explosion. The locally transferred energy is the important quantity, whereas the photon momentum is not.
And this is why a Laser weapon has no noticeable recoil.
While that would be a likely avenue for laser weapons, those currently in existence don't seem to work that way and do seem to put out enough energy that there could be recoil. In that video, while it did burn up, it didn't explode or vaporize to my knowledge. That is also a good point-the bullets *need* momentum to do their job while the lasers don't (directly). However, laser weapons would still need to use up a lot of energy, which would raise the momentum they need indirectly. Even if that energy is less than a thousand J, we are still looking at what could be a powerful impulse.
Its also important where the vaporization occurs... Say, in someones eyes:
https://en.wikipedia.org/wiki/ZM-87
Also that very likely is not the only infantry-portable product in use. Laser weapons have been in use for decades and no, even the heaviest dont have meaningful if even measurable recoil.
Boeing also has that cute anti-drone laser gun that fits in a trunk together with its tripod and batteries.
Great find! It looks more like a weaponized laser pointer more than anything
. That is to say, there are actual laser pointers with that much power! At 15mW, we are looking at 0.015J/s. To meet the criteria of the .308 I have been using so far, it would have to fire 241133 seconds, or roughly 2 days and 19 hours. The power difference between this and the theoretical weapon are astronomical, I wouldn't expect something with that little energy and that much mass to have noticeable recoil, in the same way I wouldn't expect an 80lb .22 to experience noticeable recoil. But scaling down the weapon and scaling up the power could easily have a different result, correct?
Many awesome people have detailed the very good point about laser weaponry here (along with very good details on the answer). 'Recoil' as I understand it is the reverse force which occurs after launching a physical projectile--technically there 'wouldn't' be, because considering what a rifle or pistol size to the body or position of firing, your tactile senses won't pick up on the force as something 'backwards' from the firing point.
But if you consider technicalities of a reverse force existing from the generation of a laser to create recoil: Technically nope. (Actually Yes, but in a 'people feeling it', technically nope see below)
~Edit~
To clarify: There's a threshold of 'feeling' thanks to this person, as in when you can feel a difference between objects or a force+object which provides the information between the 'lack of felt recoil' [ie Rifle/Pistol in hand or braced by the shoulder], and 'I can feel recoil'. When I said 'technically nope' up there, I'm assuming the energy being used by a laser rifle or pistol (though...I think I'm assuming a very different picture than most of what the thread says o_O {As in, I'm imagining those laser tag toys?}).
They do have recoil. It depends if it is felt by the amount of energy.
Recoil, as I understand it, is momentum mostly. This relates to force, in the same way a car crash does, but it isn't so much "reverse force" as it is "reverse momentum". While a laser weapon as described wouldn't have any push from a physical projectile, it would have "reverse momentum" from all the photons its shooting out. It is my argument that this momentum, at the low impulse of laser weaponry, would cause notable recoil.
That link gives us something to help classify "notable recoil" as, which will help if we can ever find out how many J it would put out
.
I've already asked this in a separate thread (haven't checked earlier posts though) so here's what they said:
Yes. Despite being massless, photons still have slight recoil. However, not enough to do anything unless the gun's made of extremely light materials.
This is why I'm using a gattling laser for my armored transport (along with swiping chainblades).
Please go to the Theoretical Weapon's thread next time, thanks.
But I don't want to talk about Theoretical Weapons, or disrupt actual discussions on them. I just want to talk about one specific topic. While I appreciate the answer, I am still not particularly satisfied or convinced that it wouldn't be noticeable.
We can calculate recoil easily. Let's assume we want a laser gun with the same amount of recoil as a pistol. Picking a bullet at random, I find a weight of 8.04 grammes and a speed of 360 m/s.
The formula for the momentum of light is easy. P=e/c.
The result is 860 MJ of energy, 6 orders of magnitude more than that of the bullet. Suffice to say, recoil would not be a problem.
http://m.wolframalpha.com/input/?i=8.04g*%28360m%2Fs%29*speed+of+light&x=0&y=0
https://en.m.wikipedia.org/wiki/9×19mm_Parabellum
I actually had this math in the OP, before taking it down
. The reasons I took it down:
1. While that is true, that is the momentum of a
single photon.
2. While the momentum is low, recoil is essentially the force given off by
impulse.
Impulse is F= delta p/delta t
Now lets say we use your numbers. How long does it put out this force? Lets say 30 nanoseconds (does that sound fair?)
860 MJ/30ns= 2.87*10^
16 watts. That is a
very large amount of recoil, if that math was correct.
The LAWS fire 50 kW in the infrared. That's 50000 J/s. Now, light does have momentum, because while its rest mass is zero, it does have energy so it has mass. E = mc², so m=E/c². Momentum (p) is mass time velocity, so p=mv = (E/c²)*c = E/c
So your LAWS laser create light with (5*10^4)/(3*10^8) kg*m/s of momentum per second. Since momentum is conserved, your LAWS' momentum (or the ship it is attached to) will have its momentum shifted in the other direction. Now, change of momentum over time is a force, so we can express it in Newton. When fired, your laser create recoil of 0.00016 Newton. That's force equivalent to the weight of 0,016 grams. (Which is a lot more than I expected).
So yeah, there is technically recoil. But I think it's more realistic to ignore it.
Edit: Kind of ninjaed by 10ebbor10.
Infrared! Thank you!
Now, as I said before, that doesn't take into account the impulse. In addition, that only is for a single photon. But now that I know the spectrum, I can (probably) find out the actual recoil!
**WARNING**
Dubious math ahead. Take with a grain of salt.
You see, while the combined energy is a ton, a single NIR proton has an energy of around 1.24eV. The energy of an infrared proton with that wavelength will always be the same.
1.24 eV =1.987*10^-19J
So the actual math for a single photon would be:
p=1.987*10^-19J/c=6.628*10^-28 N s
Which seems like it is a lot smaller. However, that is for a
single photon still.
Bringing up the .308 again, to get the equivalent energy we would need 1.82*10^22 photons.
Now I am *pretty sure* we can't do this realistically, but if we multiple the momentum times the number of photons, we get .00001206 N s, which still seems small.
Does that seem valid so far? I'm pretty sure it doesn't. The LaWs weapon would take .07 seconds to produce that much energy (Which, if we put into an impulse equation, would give something like a 10^-4 N, but I am pretty sure we can't use that?)). I still have a question, what is the impulse time used for light in this situation?
We can calculate recoil easily. Let's assume we want a laser gun with the same amount of recoil as a pistol. Picking a bullet at random, I find a weight of 8.04 grammes and a speed of 360 m/s.
The formula for the momentum of light is easy. P=e/c.
The result is 860 MJ of energy, 6 orders of magnitude more than that of the bullet. Suffice to say, recoil would not be a problem.
http://m.wolframalpha.com/input/?i=8.04g*%28360m%2Fs%29*speed+of+light&x=0&y=0
https://en.m.wikipedia.org/wiki/9×19mm_Parabellum
At those energies, you start to bump heads with the restraints I mentioned on page one. That's why I mentioned them. Basically, when you start emitting that much laser energy that you get bullet like recoil from the radiation pressure, your beam will self-refract and other nasty things. Basically, you cannot make a laser weapon that will do this.
Certainly not in a handheld form factor.
Here's a link to a pulp science article which provides both a link to the source research and give the derived hard limit on laser energy before spontaneous QED breakdown happens and the beam instantly becomes incoherent.
http://theastronomist.fieldofscience.com/2010/08/limits-on-lasers.html
According to the article, that hard limit is 10 to the 25 W/cm.
IIRC, the bloom limit in atmosphere is substantially lower, closer to 10MW. (there's a reason why LaWS is a 50KW pulsed laser!!)
In short, a laser pistol capable of producing recoil equal to a conventional pistol will cause the air in front of the gun to bloom with astounding energy, equal to a small explosion, and will probably cook/kill the soldier firing it. Only a tiny portion of the beam energy would make it to target.
For practical reasons, such a gun is not useful as a sidearm, and can be discounted from being reasonably considered.
Again, that was the point I was delicately trying to convey.
I agree with your point, however as I stated before I wish to disregard all non-recoil issues of laser weapons while focusing on a single issue. I am aware of blooming, refraction etc, and have been informed several times on this article why such a weapon would be impracticable. As I stated before, I am not attempting to design a practical laser weapon. I'm just trying to figure out if one existed, would it have recoil? It could be powered by magical fairy dust if it helps the problem. Or it could be shot in a void, making the light speed easier to calculate while removing the blooming/refraction thing, if you prefer a more practical solution in your thought experiments
.
Yes. Despite being massless, photons still have slight recoil. However, not enough to do anything unless the gun's made of extremely light materials.
Or you're firing longer bursts in a relatively frictionless environment (i.e. space).
And yeah, pulsed lasers are what you want in an atmosphere; the first pulse/s ionizes the air to get bloom out of the road, and the later (now invisible) pulse/s are the ones that actually do damage to the intended target.
It might also be worth mentioning here that (and I think I mentioned this in the futuristic weapons thread) the type of damage you are doing with a laser is thermal, not kinetic, meaning that in plenty of scenarios you could get by with a whole lot less force than would be needed to destroy something kinetically, or vice versa (needing more energy). A good example of a material that doesn't have similar strengths against thermal energy as it does to kinetic is aluminum; if you want to try to cut through aluminum with a laser you are going to need very large amounts of energy, because the aluminum both disperses heat quickly and has a very high reflectivity. However towards kinetic force aluminum is relatively weak compared to many other materials, and can be punched through with a very small amount of energy comparatively.
From this we can see that assuming that you need "an equal amount of energy" in your laser gun compared to your bullet is a bit of a red herring. In some cases you could get by with significantly less energy in a laser and still do more damage, while in others your laser would be virtually worthless until your energy levels were much higher than in a handgun.
Someone mentioned that above too! I know it is a big issue with this thought experiment, but I couldn't really think of any other standard to use
. However, I believe that if I am incorrect and the laser weapons would not have any recoil (or that it would have almost no recoil), then it will not matter what (reasonable) amount of energy is used, as the recoil would always be insignificant. If I am correct and they would have significant recoil at the energy level of modern bullets, then they would still have *some* recoil even if they where only pumping out a few hundred joules. As such, I don't believe the current numbers invalidate any results we would get for them.
Folks, I think you're all missing the most important part of this thread:
I mean, it would be like "fixing" the recoil on the guns by having them throw enemies around like water from a sprinkler :X.
Why doesn't this Fallout mod exist yet? It shouldn't be too difficult; you'd need to attach a script to all firearms that would ragdoll and shove their wielder backwards upon firing, and also remove all melee weapons to force gun use.
Just imagine pitched battles between bandit clans, drifting like tumbleweeds across the wasteland...
.....Alright, that mod does sound awesome
. Get a minigun, stroll through the Commonwealth like a human tornado
.
Author
Topic: Would Laser Rifles or Pistols Have Recoil? (Read 5952 times)