Typically when you hit things with shells, Even if the they don’t explode, the kinetic energy would transfer into the hull, then the water. Now imagine getting fired on 4 or 5 times, or by a bunch of small arms fire, or a land mine, all in the baking desert sun. That would be a soup pot
I mean aquarium chillers do exist, but at that point you’ve got another id imagine 300 pounds to add to the tank that would increase the profile and add just another system that could be shot off
1m³ of water is 1 metric ton, a normal tank would fit 3m³ to 5m³ given the fact that a normal modern tank is about 70 metric tons by itself i doubt it would greatly effect the engine. And water can be cooled as well.
I think you’re discounting the heat already being generated even without the water. Water is a good conductor of heat, so if there are any hotspots the crew normally just stays away from, that would spread everywhere, including to the crew. The heat would also accumulate since the rest of the tank would be acting as an insulator except on the outside surfaces.
Yeah, and I’m guessing most people would prefer that energy be vented through the metal chassis into the air, not into the water they’re working in. Heat takes the path of least resistance, and if lower the resistance to entering your body, it’ll do that.
Its not vented it’s necessary to keep a constant very strong airflow to keep the engine from burning. And heat moves up in both air and water, its not electricity that goes after resistance to find a path. And as said, you can cool the water, more easily than with air even.
Yes, you can cool water for the exact same reason that it heats up really fast.
And yes, it kind of is like electricity, in fact, good conductors of electricity are generally good conductors of heat. Electrical conduction happens through transfer of electrons, so atoms that can easily gain/lose electrons conduct electricity really well. Heat conduction happens through kinetic energy transfer, and and free electrons can transfer that energy to adjacent atoms by moving between them (like they do with electrical energy). It’s a very similar mechanism.
Water is a much better conductor of heat than air because it’s much more dense. So if you have a metal tank full of water, the heat is much more likely to be conducted through the water inside the tank than the air outside the tank. That’s why water cooling is so effective, it sucks the heat away from the hot component, transports it to a radiator, which then spreads out the water (dramatically increasing surface area) to maximize the effectiveness of transferring that energy to the air (more opportunities for the cooler air to collide with the warmer water molecules).
I think you might have a reading comprehension problem man.
Last words to that, hot stuff expands and gets lighter per 1cm³ so hot water flows on top all the time, heat always moves upwards rather than down. Electricity travels very differently than heat does, heat is atom speed and electricity is electrons jumping
That’s just not true. Heat moves along the path of least resistance, not “up,” “up” just happens to generally be less resistance than “down” due to density differences in air.
heat is atom speed and electricity is electrons jumping
From your second link:
In other words, heat is transferred by conduction when adjacent atoms vibrate against one another, or as electrons move from one atom to another.
Density matters. Free electrons matter. But in short, metal and water conduct heat better than air, which means the heat transferred is more likely to go into the water than into the air. Certain metals conduct heat better than other metals, largely due to electrical conductivity.
Use gasoline instead of water. Then you can eliminate the fuel tank. Side bonus would be protection from microbes for the crew. The government should also expect a reduction in pension and social security costs.
The first issue that comes to mind is the noncompressible nature of water. If you’ve ever played in a pool and marveled at how clearly you can hear a digital watch beep all the way from the other end, you can scale this up for any pressure wave. With very unpleasant results.
Oooh, I see what you’re saying! Yeah, that makes total sense.
… But couldn’t they just adjust the volume of the heavy metal music all tanks are required to play be the Geneva convention so that full blast isn’t loud enough to cause hearing damage?
IDK, does the Geneva convention cover the adjustment to pitch so the heavy metal can be faithful to the original while distorted? Source: Harry Potter and that Goblet of Fire.
I don’t think they accounted for any of the consequences of filling a tank with water. It’s a really outdated set of rules. Like it doesn’t even have special allowances for civilian casualties when Hamas is suspected of hiding in their clothing, which is clearly anti-Semitic. It doesn’t even say it’s ok to kill some civilians if their side embarrassed you by sinking your flagship when they have no navy.
Any shockwave from firing a shell/active armor/taking a hit would reverberate through the cabin and crush the occupants, not dissimilar to what a grenade does to anyone nearby in a body of water
Yeah, I remember when Myth Busters tested “shooting fish in a barrel” they found that even if your bullet doesn’t hit a fish that the shockwave will kill them all lol.
Explosions will fuck you up harder underwater though won’t they? Or is that when the explosion happens underwater? I feel like there was a MythBusters episode on this
the wet tank is an inverse submarine though. In this case it’s more akin with a wet sub, though those are also submersed in water, not just surrounded by it, or filled with it.
that’s where the humor is located to me. I’ve seen guys handle tank and artillery shells, shit is heavy as fuck, solid metal and HE. ain’t none of it buoyant lol