Sword with mercury core

Question

The GURPS roleplaying supplement New Sun, based on the Book of the New Sun novels by Gene Wolfe, describes a particular sword as having a hollow channel in its core containing mercury. According to the material, this causes the blade's weight to "shift backward when raised and rush forward when swung" (words in quotations are the entry's exact phrasing).

I assume this is supposed to give forward strikes more force, but I honestly wonder- would such a design contribute to or take away from a sword's effectiveness?

Answer 1

You'd get "dead blow thrusts", while normal swinging (due to centrifugal force) almost always pushes the mercury to the tip of the sword. You'd essentially be swinging around a sword with a heavier tip and mostly hollow blade, except while thrusting, where you get the "dead blow" effect.

Until you realize what a thrust really is. Having the hollow blade + mercury in the middle is useless, because a dead blow thrust is useless. A thrust is a singular motion - by the time the dead blow action kicks in, you've already fully penetrated your target to your swords maximum potential, especially since the little bit of dead blow weight from the mercury pales in comparison to the amount of force you're pushing into the sword when you thrust.

This: ...causes the blade's weight to "shift backward when raised and rush forward when swung" does not happen.

So really what you have is a poorly designed, weakened sword.

In this case, your assumption that this is supposed to give forward strikes more force is flawed.

Such a design, however, does take away from the sword's effectiveness (if you're looking at the effectiveness from a "how long will this thing last/how likely will it break" standpoint.

Actual effectiveness in combat will depend on the training of the user.

Clarification: A "Dead blow" is when a part of the force of a strike hits the target after the weapon has landed. For example, a "dead blow" hammer is often hollow on the inside and filled with sand (or something like that) - when you swing the hammer, the hammer first connects with the item you're trying to hit, but the force from the sand doesn't connect until a split second later; when the sand travels from the back of the hammer to the front due to the hammer stopping. The point of a dead blow is often to distribute the energy of a strike over a longer period of time, and to minimize rebounds.

Answer 2

Angular momentum would be conserved.

While swinging, the centripetal force would cause the liquid mercury to flow in the channel and move out along the blade. This would increase the mass at the end of the lever arm increasing the force of the blow. The increased force is not free energy, it would slow the rotation of the swing. This increased momentum would also make the super swings more difficult to control.

This variability of rotational speed and higher than expected force could be useful at initially confusing an adversary, but it would likely also confuse the wielder unless they had trained and adapted their fighting style for it.

Answer 3

...would such a design contribute to or take away from a sword's effectiveness?

I would not worry about the weight effects of such a blade too much.

Making a blade hollow and filled with mercury, especially when you make the blade big / hollow enough for significant amounts of mercury, will give you a sword that is much more likely to break than solid designs.

You might feel a certain effect swinging or thrusting the blade. But as soon as your blade encounters another blade in a clash, you will be standing there, sprinkled in mercury and holding a broken sword hilt. While your opponent laughs at you, and cuts you down.

Which makes any effects that mercury might have while the blade is intact pretty secondary.

Answer 4

would such a design contribute to or take away from a sword's effectiveness?

This would contribute to that exact sword's effectiveness.

That sword is an executioner's sword - a tool specialised for job that is heavily different from swordfighting (like, they don't even have a sharp point for thrusting).

Design is supposed to make this particular sword perform better at axe's job of chopping off immobile kneeling prisoners' heads in one blow.

There were hollow batons filled for about 1/3 with birdshots in '90s in Russia and I've also heard of table tennis rackets with empty handles and a moving weight inside them but I am not sure that this were done because of actual practical benefit or not.

Quick test shows that moving weight kinda works - the blow that feels equally hard feels easier to make so there could be some practical benefit. However, weight's position is messed up after contact with the target - or after other sharp change in movement - so it does not look like easily controllable effect in a fight.

That being said, for all intents and purposes other than chopping off immobile kneeling prisoners heads off in a single blow, it would be pretty lousy sword. From fighting standpoint, it's harder to control, it has a structural weakness in important point and it is way harder to replace - all that in exchange for a better performance at a blow you won't ever get time to prepare or deliver.

I haven't read the book though. If in that world that sword performs good in a swordfight then it should be attributed to the same thing that makes dragons exist and magic work.

Answer 5

I searched, though I couldn't find much...

It was all about having a moving centre of gravity. Generally in a sword you want the centre of balance to be close to the handle, usually around your guard. This way, it is easy to swing the sword around to attack or defend. However, when making a slashing attack, you want your blade to have a lot of weight to bring to bear on your opponents sword/armour/person therefore increasing the amount of momentum you can deliver to break something or to carry through them and make a deeper wound. The problem is that a heavy blade that is agile requires that much weight again in the pommel to balance the whole thing out. Heavier swords are tiring to swing during a long battle.

To solve this, the theory went that you would create a hollow channel filled partially with a movable mass. In this case mercury, which was dense and a liquid to easily move along this channel. When your were on guard with the sword upright, the centre of balance would rest closer to your grip and you would have an agile sword. Then when you swung, the weight of the mercury would concentrate closer towards the blade and give you a more powerful strike, all without having to add extra weight to the sword as a whole.

However, the sword might be kinda brittle (hollow, and only partially filled. So the mercury cannot fully absorb the force). And anyways, this is only good for one attack. If you're going to defend, this seems difficult, and you'd be put off balance by the shifting mercury.

Answer 6

A sword has a balance point - its weight center. There seems to be no consensus about at what exact distance from the hilt the balance point should be, but there is a firm consensus that it should be quite closer to the hilt than to the other extremity. Anyway, part of handling a sword is adjusting to its balance point. The sword you describe is unbalanced by definition: its balance point changes with every movement, making it much more difficult for its user to adapt. It could, I guess, be useful as a sword that has only one specific use (such as a sword used exclusively for beheadings of prisoners - see RedSonja's comment) in which the shift of balance would be predictable. But for an actual fight, where it is necessary to make several different movements, it would be a very lousy sword. If you have to parry, for instance, you want your balance point to be between your hand and the point of impact of the enemy sword, otherwise the momentum of the edge will work against your ability to keep hold of the weapon. You definitely don't want to not know where the balance point of your sword is.

Answer 7

This sounds like a good thing in theory only. There are a number of "perpetuum mobile" designs premised on similar misconceptions. But angular momentum and momentum are not magically increased but preserved, so as the mercury travels through the centre of mass, its part of the angular momentum is taken over by the sword, meaning that the sword will resist swings. When the mercury hits the end of the channel, its moment is consolidated with that of the sword, meaning that if this does not happen at the precise moment where the tip hits a target frontally, the sword will get yanked out of your hand. Generally you will be required to time all of your technique to the handling of the sword and evasive action will have just as hard an effect on your sword grip than what you intended to deliver at your enemy.

It's like fighting with a ball-and-chain flail blindfolded. Except that the chain has more degrees of freedom, so it's more like a spear with a sliding spiked ball on it. How much use is this going to be for swinging?

Answer 8

Just swing around a 1/4 filled bottle of water and you'll find that it makes for a difficult to control "weapon". Even for an executioner sword, it would feel clumsy and the executioner might overshoot, applying the force of the swing in the wrong place.

Answer 9

As a sword goes, it would be ineffective. Swordsmen are quite picky about the balance of their sword. Having the balance shift during combat would not be popular. Also, mercury has a nasty habit of amalgamating with other metals and making them weak. You'd have to be choosy with your metallurgy.

That being said, there is something to this story. The Seven Star Staff is one of the weapons of Baguazhang, one of the internal martial arts of China. The Seven Star Staff consists of a length of bamboo with 7 cavities, each of which is partially filled with mercury. It's a staff, not a sword, but it's along the right lines. The theory was that the weapon would strike you, and then the mercury impact would truly hurt you. I'd also argue much of the benefit of it is that the internal state of the staff is hidden unless you're holding it. Given how much the mercury matters, not being able to see where it is in each of the cells could create quite a disadvantage for one opposing the Seven Star Staff. It certainly fits with the styles popular with the internal martial arts of China!

Answer 10

Yes it could be useful. I am not sure what the book describes though ... never read it but as far as physics goes you'd get a lot faster initial movement in a sword.

Everyone here have missed the point of swords weight being trade on its length in fencing, extra length is useful but some cases one might use a short sword that can be concealed. A sword that is bound by length has the extra weight option if the wrist can take it. It's not like anyone ever concealing a short sword has a need to confuse its opponent but thrusting a weapon is something that don't really need a lot of momentum and its the slashing that needs it... to be effective.

Although I haven't really held a real sword or done any fencing it might really feel like the sword has a mind of its own ...or a soul... but think of it this way - space shuttle burns most of its fuel just to get to off the ground. And everyone knows that you'd never actually conceal a weapon I mean whats the point of having one if you cant post pics of yourself with it on Instagram.