The Spartan Laser from Halo 3, despite being a popular weapon in the franchise, is fundamentally impractical because it would require approximately 89 megawatts of energy to penetrate 4 inches of hardened steel at 500 meters range, which is equivalent to the power output of a small power plant carried on a shoulder, making it impossible to exist even 500 years in the future.
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Is the Spartan Laser Practical? (A Realistic Analysis)Added:
Kyot, >> the Spartan Laser, the Red Menace. This destructive weapon debuted in Halo 3, and it's stuck with us ever since, and it's all for good reason. It's a weapon that if you give it a few seconds to charge, and you aim well, you can enjoy the result in spectacular, destructive fashion.
The Spartan Laser is such a mainstay in the Halo franchise that even mod creators deliberately include this weapon to maximize the engagement and payoff of their modified sandbox. But the title Spartan Laser is a misnomer if you believe it's a weapon made for only Spartans because it's not. You can hand the Spartan Laser off to an ODST, a marine, a trooper, and they will move around just fine with it. Even Dutch from Halo 3 ODST equips himself with a Spartan laser. Sure, it may be heavy and cumbersome, but you don't have to be genetically enhanced just to fire it, which is a good thing because Spartans make up less than 0.001% of the UNCC fighting force. So, if you were mass- prodducing and deploying weapons that only Spartans could fire, then you're making a logistical mistake.
Another mistake you can make is moving the Spartan laser at the moment of firing. You can see on screen that there are multiple laser strikes instead of one large blast. To deliver the most destructive strike, of course, keep it as steady as possible. But because there are multiple lasers that come out of the Spartan laser, it makes me instructor Laspina wonder for fun. Instead of a heavy weapon like a Spartan laser, couldn't the UNICE make smaller, more practical weapons with this laser technology, making all other UNICE weapons obsolete, do what you can.
Well, kinetic weapons that fire bullets are always going to look and sound cool and gritty, much like in Trooper Firefight, a Halo Reach mod created by Boyd model. Man, I love this mod so much. I've showcased it several times.
And now there are new running animations with heavy weapons such as the Spartan Laser. This mod perfectly executes the boots on the ground feel of a trained but vulnerable human against the invasive Covenant forces in the violent world of Halo.
The new animations are seen even in death. Sometimes your player model will struggle to stay alive before succumbing to their injuries, further exemplifying humanity's will to survive against an overwhelming foe.
And with this survival instinct, humans will use any weapon to their disposal.
Trooper Firefight illustrates perfectly the weight of objects and the movement speed of a trained but regular human.
>> Bring it down.
>> Each time you dispatch an enemy, no matter how big or small, it's a serious moment in time because one mistake could have been fatal. This coupled with the new brute permutations makes the Covenant terrifying. These altered brutes remind me of the ODST and Landfall trailers. I prefer brutes to look more wolflike rather than gorillas.
This is the way to view brutes.
And surviving an encounter with one feels like this.
Were it so easy?
These brutes are like massive canines in heavy metal armor. A mix of a bear and a wolf. Boyd model closely brings these terrifying brute permutations to the trooper firefight mod, making them look so much cooler but scarier. I might just make a video analyzing the updated permutations of each species and UNICE units. As an example here, this brute captain has a human skull and spine slung over his shoulder.
Cold cabon. The Marine unit deployed to this part of the city is equipped head to toe, suited and booted in their own unique way.
Looking closely here and increasing the screen exposure a bit, you can see all the awesome fabric details, the camouflage pattern in their uniform, accessories, their pouches, and their armor. And they have no problem using the Spartan laser. So, what if you picked up a Spartan laser right now and tried to use it? How practical is it?
and how much does the Spartan laser actually alter UNICE armament history?
Let's turn it over to instructor Laspina, head of spear training group.
He's the weapons expert that enjoys dissecting the design and function of fictional weapons with comparison of weapons we have today in the real world.
Stick around, it's about to get very interesting.
Today we have something a little bit different and uh I want to thank Coyote again for the opportunity to do this stuff. Really enjoy it. We're going to be looking at the M6 Spartan laser and some of the variants they are in.
There's a couple important things to note here. My my main experience is going to be weapons handling and their usage and tactical application there in what we're looking at here falls into the space magic car uh territory pretty heavily. Now, I got to give two disclaimers here. Number one, because my specialization is conventional weapons and their application therein, this is space magic. So, this is a little bit outside of my normal realm. I'm not going to know these numbers perfectly well. I'm not an electrician. I'm not a laser engineer or anything like that.
Some of these things may not be accurate and I won't be able to catch them. The other thing to note, laser technology is one of the cutting edge technologies that we currently have on the floor.
some numbers and some of the science and some of the things we're going to discuss here are deliberately inaccurate. I'm not going to give you information on how to create one of these. That is not at all the intention of this video. What this is going to do, though, is show you why this Spartan laser is going to undo almost everything you know about the Halo universe. If you are one of those individuals out there that knows uh the science of lasers and stuff, number one, I'd love it if you get in the comments and you really engage and let me know there. I'm always down to learn some stuff. Number two, be careful about the things you do say. Again, it is a cutting edge technology. This is a public platform.
Let's continue. So, we're going to have to make a few assumptions before we get too far. And the assumptions that we're going to make are based off of the descriptions that we actually have in the wiki. So, for example, we know that this can one-shot most vehicles in the Halo universe or twoshot some of them such as the Scorpion tank, I believe it is, which makes it interesting. We have to make common assumptions based on the fictional universe. So, we have to define a few of the parameters here. For example, this states that it is a long range weapon. Well, what is long range?
Well, long range in the conventional sense of today is anything beyond 300 meters or so, uh, long range in the sense of 500ish years in the future is probably going to be different than it is today. And considering that the standard calibers are 308 or 762 x 51 and other, it's reasonable to assume that long range is going to be more than 300 m. You don't really see that in game, but it's it's not unreasonable to assume that it is. It falls under the common category of overmatch, which is a pretty much neverending philosophy of warfare since the beginning of warfare.
Uh, basically outranging your enemy, being able to inflict damage when they cannot. Take a look at the English longbow of the medieval era. They were outranging the French even though they had technologically interesting crossbows which made it easier to train their soldiers. The English long bow could outrange the crossbow so they could engage them before they even got close enough to engage.
Either way, warfare is an evolution of things. So assuming that the ranges are increased is not an unlikely thing. So, we're going to assume about 500 meter range on uh the Spartan laser here. Now, we're also going to assume because this can one-shot most vehicles, we're going to assume this can penetrate about 4 in of a hardened steel. Is hardened steel the hardest material currently? No, not necessarily. Is it the most accurate representation of modern armor? No, not necessarily. But what it is is it's a thicker material than what a lot of armor currently exists. And we can reasonably assume that whatever titanium A is because we can't prove the properties there in. It's going to be similar to about 4 in of hardened steel.
Might be wrong on that. Don't know. But that is going to be assumption of the math. We're also going to assume that the impact of the Spartan laser here is about a 10 cm circle. We are also going to assume that it takes approximately 0.5 seconds or half a second for this to deliver all the energy. Now, we know in game that this is instantaneous, right?
The the moment that laser discharges, all damage is dealt instantaneously.
I promise you, me giving it.5 seconds to deliver all that energy still makes it completely unreasonable, and you'll see that very shortly. Um, so attempting to make it more realistic and more viable to the science even further proves that it is not realistic at all. So the short and sweet and simple of this video is making the Spartan laser more practical is deleting it from the universe because it can't exist even 500 years in the future. There are huge implications. If the Spartan laser exists in lore, it would rewrite the entire military-industrial complex that exists in this universe because of the technology we're about to discuss.
So, first and foremost, with those assumptions of a 4in piece of hardened steel, 10 cm diameter taking uh.5 seconds of delivery at a range of approximately 500 m, you're going to need to deliver 4.4 45 um by 10^ the 7th power I believe it is uh jewels of energy. Now let me put that into more measurable terms. I'm going to have to look at notes here. Again, not my specialization. That's about 12.4 kW of energy uh or delivering the power of approximately 89 megawatt in everyday terms. That's about the tenth the power of a small power plant if you're just carrying this on your shoulder. So, one of the important things to note about laser energy uh and laser distribution, lasers are sometimes projected through uh several lenses of glass, sometimes they're projected through a gas material, sometimes through a solidbased material. There's lots of different ways to project lasers. And from what I'm understanding of the technology, the most likely rendition of this laser technology would be in a solid fuel state of laser. uh meaning there is a solid crystallin or solid material rod that is really able to help emit and intensify that laser.
Th this would be uh fairly consistent with some other technologies. So we're going to assume it is a solid state laser. We do know from the animations at game that it does have some uh focusing of the lenses as it's charging up. You can see the lenses kind of autofocusing.
We can reasonably assume that that's done by calculating the range to target and discerning how much power to deliver. That is not an unreasonable thing. What is unreasonable, we're going to go ahead and we're going to have to do this one out of order a bit, but one of the unreasonable things about the Spartan laser designs is that those are exposed gears and parts. You would want that covered up quite a bit cuz your, as we see in the description, extremely expensive Spartan laser is now going to be disabled by a stick that got caught up in the mechanism. Okay, you just got disabled by a piece of nature. So having exposed components like that, articulating components, is really something you want to avoid. But we do see that with the focusing of the lenses. So, some of the technical application of the weapon is actually represented accurately in game.
We'll go over more of that here in a little bit. Now, I'm not going to bore you all with the math and the numbers as far as uh how much area the laser beam is going to be taking up or the steel density uh and all that stuff. What I will pretty much just give this to you is there is a certain amount of energy that has to be delivered to the 4 in of steel in order for it to be considered penetrated or damaged. Otherwise, it's not going to deliver enough energy to the target.
Now, that equates to approximately 89 megawatts of energy. So, what what is what is that? I said a minute ago that's about equal to the tenth of a small generator and that's that's actually the peak demand of a small town for about half a second. Uh so about 1,000 ohms or so that is delivered in that instant.
Now here's where we get really technical.
That is the effect on target. 89 megawatt on target.
If your target is 500 m away or long range, you need more power because while that laser is being fired, it is getting hit by air turbulence. It is getting hit by dust and debris that's in the air. Um, all of these things can cause different forms of deviation. Uh, for example, we have vaporization and plasma formation.
Once this actually hits the steel, it is going to start to instantly vaporize that steel. Well, that vaporization process is actually going to block the consecutive uh laser waves that are coming in to impact, therefore reducing that power. You're also going to have molten ejecta, molten material that's melting away from the steel and shooting away from there. Those are going to reduce the effectiveness of the laser.
There's plasma shielding. As those gases start to evaporate, they're instantly going to be turned into a plasma which is further going to reduce the effectiveness of that laser. And then there's uh thermal conduct or conduction. As this laser impacts the steel, the thermal energy from that laser is going to distribute into the steel out into the surrounding steel further reducing its power. So if we are going to penetrate this much steel, we need to deliver a huge amount of power.
Um, now it's worth noting in atmosphere >> in atmosphere >> on a planet on a ring, there's a lot of things there that are going to disrupt that. I mean, if a leaf is falling through the air, that is going to momentarily block that laser beam and collect some of that energy that would be delivered to the target, therefore reducing its damage. If it's outside of atmosphere in a vacuum, there's a lot less. So, more power gets delivered to the target. Now, it's important to note you do see this. This would be a very minute thing, but depending on the effective range of this and the application of this type of weapon, but if you were firing it in a vacuum, gravitational pull would have to be accounted for as well. We see this whenever we're analyzing planets um from other uh systems within our own galaxy.
their light gets warped by the star that they're hiding behind or the star itself gets its light dimmed and warped around large planets because they have gravitational pull. Um, you can also see this in say the event horizons of black holes where they appear to be warping the light around that fulcrum of a black hole where it's just pulling in the light material. My point is if you're using this in a vacuum technically there could be deviation of your beam based off of gravitational pulls. you would have to take into account gravitational anomalies. If this were say a deckmounted weapon on a ship, uh, one of the other things is in game it is depicted as a red laser, very bright laser. This is very much going to be for artistic effect. Uh, more than likely a laser that is in this particular power level or stated energy level, it's not actually going to have any visible light at all. Uh, it is pretty much going to be in completely invisible.
which takes away all the fun, right? All of a sudden, the thing you're pointing this at just evaporates or explodes.
Well, that's the reality of high-owered lasers. We can see this with modern laser systems that are mounted on ships and stuff. You can't see them unless they're in the infrared range, which is kind of like infrared lasers on rifles and stuff. Um, you can't see it unless you're you have specialized equipment to expose that wavelength of light. Uh let's also talk about some of the other features that's uh that happen whenever this laser impacts or is in game. So for example, the Spartan laser in game has a massive amount of recoil, right? Well, it's a power weapon.
Not likely. Not very not likely considering the weight of this weapon and the fact that it's literally just emitting photons of light. Uh technically speaking, there would be a very mild amount of force imparted on the user, but it would be similar to a hair falling off of your head and onto the top of your hand. That's the amount of recoil that you would actually be feeling from the weapon, which is very antilimatic whenever you're considering a video game weapon. This doesn't emit any light, no tracer really. It's not going to be moving at all whenever you actually fire that power weapon blast.
Well, that's the science of it. However, because we're getting that flash vaporization and instantaneous molting on the target, all of that ejector and gaseous material that is escaping from the target itself is going to impart recoil onto the target. So, because we're creating an extreme expansion of materials on the target, in this case, a 4-in thick piece of steel, all of that material trying to escape in that moment is going to impart a force onto the target itself. However, unlike most firearms where they impact in a linear motion and push in a linear motion, the laser is impacting linearly, but the expansion of materials is exploding outwards. So, the force that does get imparted is going to be very widely distributed into the material.
Uh, so the fact that sometimes halo physics launches things in the weird directions, that's actually not completely unrealistic. uh we actually call this uh ablation recoil I believe it is it's that instantaneous expansion of materials that imparts a recoil force onto the target itself. All right. So, to get a little bit deeper into this, um, some of the some of the things that we would have to consider are coupling efficiency. Only part of the energy that's actually emitted out of this weapon is reaching the target. That's that 89 megawatt that we discussed a minute ago. And the the really really damning thing to this technology and the implications of this weapon is that right there. because we have to emit enough energy out of this to deliver that at 500 m to destroy heavy armor and other materials at 500 m. So if we need 89 megawatt of energy to hit the target at 500 m, we are delivering enough power that we're accounting for reflectivity.
This is this is the laser being reflected off of the material that it's impacting. uh the atmospheric losses, the scattering, absorption, the turbulence of the atmosphere that is going to disrupt that that laser beam, the plasma vaporization and the plasma shielding therein. Uh mind you, this is taking away the shielding effect in the halo that exists. This is literal just modern science stuff that we're discussing. So the fact that there could be an energ energy shield on top of that also creates even further implications of why this technology is very unrealistic because as that plasma starts to form again it's eating away our conductive laser our ability to deliver those jewels on the target. So what does all that equate to? If we account for all of that disruption to our initial laser, we have to deliver 8.9 gawatt of energy. 8.9 is similar to a very high output power plant for a city.
It the Spartan laser is an entire city power plant on your shoulder. That I I don't I don't know how to really elaborate on that. That's that's ridiculously powerful.
So, let's take a look at the weapon itself and then we will get into why that destroyed the lore.
So, we know that this is almost exclusively a Spartan weapon. Kind of hence the name Spartan Laser, right? But we do know that you can hand this off to uh Marines and ODST. We know that it's fairly heavy. It's fairly unwieldy. We know that there's a visual laser emitted and um after some conversations with Coyote, he had mentioned really skilled players will charge it up and then flick it onto their target. That way the target doesn't see the laser being emitted and know that they're about to be hit with the Spartan laser. So there's a lot of interesting implications here. At one point when I was first looking into this, I was thinking, well, the Spartan laser doesn't make a huge amount of sense if it's going to send off a laser first.
That's just lost potential energy. Well, considering there are focusing lenses in here and you might want to shoot less energy if your target is not 500 m away, kind of makes sense that there's some rangefinding capabilities in this system and some calculations that are being done whenever you're charging up that shot.
So, not completely unreasonable that there would be a laser being emitted.
The fact that it's visible is probably less likely though. Now, I know in a lot of the other weapons and I talked about counter measures in universe, unfortunately, because this weapon is so heavily based on energy based uh storage and distribution, there's not a whole lot of countermeasures we can have on this other than just general shielding, but also because of the sheer mass and size of this, there's not much we can do. On that note, looking at the design, looks like we have some supporting materials just to hold this massive thing. Makes sense. I had assumed this was a battery in the past, which it might still be, but due to our lower description, it actually states that the battery is not removable. Okay. Uh I don't know what that might be. We do see some other interesting things on our design here, such as what appears to be a charging handle or maybe just a reciprocating mass. I'm not 100% sure, but we can actually see some wear patterns along the way. But it doesn't need to exist, it doesn't believe. From everything I can read, lasers don't have moving parts. They don't need moving parts. So, unless this is part of the cooling system, uh, which even then I don't know really why we would need a mechanical moving part on the exterior of the weapon. So, I'm going to omit that.
Our foldy grip here. Um, I actually don't have a problem with that. Just stowing away and having it for engaging.
Not a not a bad choice. With that said, this little knob up top would be a little uncomfortable if you're gripping this heavy weapon that is going to be running into your uh finger a bit.
And in the rare case, I'm actually going to keep this hole stock. The main reason being that I'm going to keep it there is I'm assuming all of this additional material is necessary for the sheer power that this thing is delivering. And because you're not really breaching in the rooms and using this in ergonomic setting, it's not necessary that this is going to get in the way in that particular use case.
This is an extremely special purpose weapon. This is not going to be used in dynamic environments. So, this is not going to hurt too much in this case.
Similarly, I was a little curious what this is. There are a few guns out there and weapon platforms that have a kind of forward shield, so you can muzzle them into the dirt and not be stuffing your muzzle into the dirt. Uh, I can't think of them off the top of my head, but there are legitimate devices that do that. If you look at some of the well medieval crossbows to bring them back up again, they actually have a little stirrup on the the front of the crossbow so you can stick your foot in and crank the crossbow open. It also helps keep the end of the crossbow from digging in the mud and getting uh blocked up with other material. So, considering the sensitivity of this particular weapon and the immense weight, it's kind of reasonable to keep something like that on hand. The last little area that we're going to look at is all of this exposed sensitive material.
These are all of your lenses and um your solid laser uh components. We need to keep these shielded. And we know that this was a thought because this entire shroud up top lifts up whenever firing.
Problem is is there is no reason to expose these items. So, we are going to make an alteration that actually keeps this lower to the weapon.
Overall, because there's so much space magic involved here, we can't really make too many changes.
So, let's take a look at the changes that we do make and the reason that some of those may exist.
So, overall, you can see that it doesn't it doesn't make a huge difference here.
One thing I did not mention was the changing of this little fire selector here. It uh it appears to be a little more top based and forwarded uh unergonomic for whatever its purpose is.
So, we're going to get it a little closer to the firing grip.
You can see that we have also reduced this entire side charging handle in the rear components a bit and dropped our shield down on top. We also reduce that little knob on our finger grooves just to make it a little bit more efficient.
So why would we make the changes that we are here?
Great question.
Because we are going to assume the presence of a few different technologies or applications there in because we know that we can hand this off to a standard trooper. We need to make it accessible for them. It can be shoulder fired, but shoulder firing something this heavy is really kind of cumbersome. It's going to really destroy your accuracy quite a bit. So, what if we made this fireball from a prone position, which really sucks with shoulder fired stuff? So, here's an exploded view of all of our components.
Um, now we're actually going to show the firing. You may not have noticed that.
This is actually going to repeat here a bit. Then we can put it into a prone firing mode and a maintenance mode. So, what's worth noting here is we're actually about to see the firing. You're going to see a small shield plate pop up here, expose for just a moment, and fire the laser. Now, in this animation, it is only.5 seconds.
So, you're going to see, and even though it would be invisible, I did make it a very slight color change. So, as the animation plays out, you'll be able to see that laser firing. And you can get an idea of how long half a second really is. And then almost immediately after the laser fires, the shielding drops back down to cover up all the sensitive components.
We also had the heat of the expanding gases, whatever cooling needs to happen after firing this laser. Generally speaking, there are liquid cooled options. We would assume that this would have a liquid cooled option as well and it would just evaporate all that material to make it ready to fire again shortly after.
Now on the prune here, this entire fire control unit here on the bottom simply moves to the rear exposing a bipod that is underneath which auto deploys. We have a latch here. So, as the uh fire control folds back, the latch is automatically hit deploying the bipod.
And then for the maintenance, the entire shroud can just pop up, enabling access to all the critical components. And we'll just let this play a couple times here.
Again, because there's so much space magic involved here, we can't make too many changes to the actual application of the weapon.
One of the other things that I think would be more realistic application, and part of the reason I kept some of these nubs on here, is this could be vehicle mounted. Again, there's a stupid amount of power in this weapon. So, if this were to say be mounted to a pelican, uh where instead of supporting troops, it can just support more uh power supply to the weapons. That would make more realistic sense. Again, a pelican is not an entire power plant. But 500 years in the future, somehow they mastered physics better, which hey, that's every so often in science, right? If it happens, then mounting this to a crewerved weapon or anaced weapon system or a vehicle would be more realistic. So having mounting brackets or hardware on the weapon itself is not an unreasonable thing.
Now, while this plays out, I want to talk about why the implications of this weapon being in the universe are completely undoing of all of the other science in the universe.
If this power supply and the ability to emit this much energy exist in universe, it can be downsized to an infantrybased weapon where you don't have to account for leading your target in uh a velocity race where you don't have to account for trajectories of bullets falling over time. Laserbased weaponry is considered to be one of the next uh major evolutions in firearms technology or small arms weapon technology. The primary thing that we can't get around right now is storing the energy. We can deliver it. We just can't store it efficiently. The moment it becomes backpack carryable is the moment that this becomes an everyday thing to us. um the implications they're in both not only on our small arms weapon but even on our medium machine guns like mounted machine guns on the Warthogs and all of our other systems.
This type of weapon would completely undo the logic of kinetic based weaponry. Um you no longer have to manufacture ammunition. you now just have to generate and store power which depending on your capabilities can be endless.
Um, there's there's huge implications to this and I really really think a lore writer or fan author, whatever you want to call it, someone can really take that and run with it. If if this was in a more reasonable number, okay, for example, for example, I'll give you an example. Uh, the Spartans are in power suits of armor and they are very capable, right? They have a power supply of some kind in there. If we assume that they can somehow attach on a backpack that would allow them to provide more power to their suit, then they can probably mount a miniaturized version of a Spartan laser that is effective up to 25 m. A very short range, very small, very compact. Again, if we have a huge shoulder fired option here that can hit out to 500 m and destroy a tank, then we should be able to have a wristsized one or a small armsized one that's effective out to 25 m and maybe dealing the same amount of energy. Um, those are the implications of this type of technology. And it really, really, really goes really broad. Uh, one of the other things, and I know that you can get splash damage from using this weapon up close, but remember how we said it's uh, what was it? 89 gawatt of energy just to reach out 500 m and destroy a tank.
What if you expended 89 gawatt of energy at 5 m into another Spartan?
that there's there's not a huge amount of atmospheric disruption in 5 m.
There's not a huge well there probably would be a lot of plasma that formulates at 5 m with 89 gawatt of energy. Point is the implications of the technology are huge and very far outreaching.
Now I do want to apologize.
Unfortunately, there's not a huge amount I could do on the visual side to edit this, but talking about the science and uh those implications, I hope was at least interesting. Uh please stick around. We have a lot more weapons to go through, include, well, you know what? I don't even want to spoil it, but uh we have a lot more weapons to go through.
Uh including one that is going to get a huge amount of edits. One of them that is just just really beating me up inside because it's stupid. We'll get there.
Thank you'all for watching. Again, thank you Coyote and this awesome community for the opportunity to do this and I hope we get some more. Thank you.
>> Thank you, Instructor Laspina. It looks like the Spartan Laser rewrites Halo history. Tell me what you think in the comments section below. You can check out the other videos me and instructor Laspina have made together, and you can check out the videos I've made on my own. Thank you so much for watching and consider subscribing.
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