Sentient Cephalopods in Exoskeletons
On a distant planet covered mostly by water a species of highly intelligence cephalopods have evolved and even developed space travel. The problem?
Most other species are land dwellers and the cephalopods need a means to traverse their space stations and cities. Without a skeleton of their own their land travel is limited to an undignified and uncomfortable crawl that is entirely unbecoming of the most ingenious species in the galaxy.
The solution? Build their own skeleton. An exoskeleton specifically. Ideally one that can be powered by the cephalopod's own muscle strength.
So my question is; Would it be feasible for a cephalopod to move on land by inhabiting a non-powered exoskeleton and moving the limbs with their tentacles. In my mind it works by the cephalopod entering the tightly fit exoskeleton, which provides the creature support enough to not collapse under gravity, and use their own flesh in place of the muscle tissue normally used to move the skeleton around.
If this combination wouldn't be functional what would be a way to make it functional? Preferably keeping with the non-powered artificial exoskeleton concept.
science-based reality-check xenobiology
add a comment |
On a distant planet covered mostly by water a species of highly intelligence cephalopods have evolved and even developed space travel. The problem?
Most other species are land dwellers and the cephalopods need a means to traverse their space stations and cities. Without a skeleton of their own their land travel is limited to an undignified and uncomfortable crawl that is entirely unbecoming of the most ingenious species in the galaxy.
The solution? Build their own skeleton. An exoskeleton specifically. Ideally one that can be powered by the cephalopod's own muscle strength.
So my question is; Would it be feasible for a cephalopod to move on land by inhabiting a non-powered exoskeleton and moving the limbs with their tentacles. In my mind it works by the cephalopod entering the tightly fit exoskeleton, which provides the creature support enough to not collapse under gravity, and use their own flesh in place of the muscle tissue normally used to move the skeleton around.
If this combination wouldn't be functional what would be a way to make it functional? Preferably keeping with the non-powered artificial exoskeleton concept.
science-based reality-check xenobiology
What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago
add a comment |
On a distant planet covered mostly by water a species of highly intelligence cephalopods have evolved and even developed space travel. The problem?
Most other species are land dwellers and the cephalopods need a means to traverse their space stations and cities. Without a skeleton of their own their land travel is limited to an undignified and uncomfortable crawl that is entirely unbecoming of the most ingenious species in the galaxy.
The solution? Build their own skeleton. An exoskeleton specifically. Ideally one that can be powered by the cephalopod's own muscle strength.
So my question is; Would it be feasible for a cephalopod to move on land by inhabiting a non-powered exoskeleton and moving the limbs with their tentacles. In my mind it works by the cephalopod entering the tightly fit exoskeleton, which provides the creature support enough to not collapse under gravity, and use their own flesh in place of the muscle tissue normally used to move the skeleton around.
If this combination wouldn't be functional what would be a way to make it functional? Preferably keeping with the non-powered artificial exoskeleton concept.
science-based reality-check xenobiology
On a distant planet covered mostly by water a species of highly intelligence cephalopods have evolved and even developed space travel. The problem?
Most other species are land dwellers and the cephalopods need a means to traverse their space stations and cities. Without a skeleton of their own their land travel is limited to an undignified and uncomfortable crawl that is entirely unbecoming of the most ingenious species in the galaxy.
The solution? Build their own skeleton. An exoskeleton specifically. Ideally one that can be powered by the cephalopod's own muscle strength.
So my question is; Would it be feasible for a cephalopod to move on land by inhabiting a non-powered exoskeleton and moving the limbs with their tentacles. In my mind it works by the cephalopod entering the tightly fit exoskeleton, which provides the creature support enough to not collapse under gravity, and use their own flesh in place of the muscle tissue normally used to move the skeleton around.
If this combination wouldn't be functional what would be a way to make it functional? Preferably keeping with the non-powered artificial exoskeleton concept.
science-based reality-check xenobiology
science-based reality-check xenobiology
asked 2 hours ago
MetalJimmor
9831411
9831411
What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago
add a comment |
What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago
What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago
add a comment |
4 Answers
4
active
oldest
votes
The problem lies in how and what to build the exoskeleton out of.
Cephalopods are not really as dexterous as humans are; they might use something like chopsticks, made of crab's claws or something similar, for the fine manipulation.
Underwater, no metallurgy is possible, and very little chemistry, since water is so good a solvent.
Once they realise they need the exoskeleton trick, or the necessity of some kind of artificial implements, I think the best route left to our cephalopods might be to breed clams to produce mother-of-pearl and aragonite shapes, and others to dissolve them or weld them together. Then, they can start making exoskeletons out of interlocking, welded mother-of-pearl parts.
I fear it will be a long and frustrating road.
Then, they meet the land-dwelling species and basically breed and enhance them, until they discover fire. And, after long experimentations (cephalopods are fascinated by fire), they discover metals. Tin, copper, bronze, iron.
At this point the exoskeletons will be made of metal struts and mother-of-pearl, and by the time they discover space travel, chances are that they're mostly using battery-powered exoskeletons.
Unless there is some non-technological way of achieving space travel, I'd expect exoskeletons to pre-date space travels by a very large margin.
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
add a comment |
Yes it would work with three things to consider:
Stability The cephalopods will probably have to learn for months how to use the exoskeleton without falling over. For varying steepness and such they will probably need a year or even more.
Oxygen They somehow need access to oxygen while on land which probably requires something like water tanks attached around them or something similar.
Water The inside of the exoskeleton needs water to keep them nice and wet and prvent drying out.
New contributor
add a comment |
I don't see why this wouldn't be feasible. The simplest incarnation of some sort of exoskeleton would probably just be a few strong sticks that the cephalopod grasps with its tentacles. It wouldn't be that different from how we use crutches or stilts to lift ourselves. If the cephalopods are anything like what we have on Earth they should have no trouble wrapping their tentacles around a piece of wood or metal and lifting their own body weight without any additional mechanical help. Using four tentacles to grab four walking sticks would still leave an eight-tentacled cephalopod with plenty of appendages for holding and grabbing and manipulating its surroundings.
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
add a comment |
This species, early in their history, would have to develop an understanding that their advancement is limited by their environment.
By saying the world is mostly covered in oceans, I would assume that there is some dry land somewhere. Around that dry land, a branch of this species would develop a form of amphibious abilities or tactics to crawl on land to develop the technologies to gain an advantage over other species or their own kind. This would be metallurgy and chemistry as others have pointed out that would be difficult (not necessarily impossible) to develop. They may have got an understanding of metallurgy around geothermal vents. needing a safer place to advance this ideas, the land and air would be the solution. The race that either develops the strength to crawl on land or develop a crude tool to assist them, such as an exoskeleton or crutches.
The race that manage to get on shore would become the dominate society and what ever method they used to accomplish this would be further developed and improved on over t
New contributor
add a comment |
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4 Answers
4
active
oldest
votes
4 Answers
4
active
oldest
votes
active
oldest
votes
active
oldest
votes
The problem lies in how and what to build the exoskeleton out of.
Cephalopods are not really as dexterous as humans are; they might use something like chopsticks, made of crab's claws or something similar, for the fine manipulation.
Underwater, no metallurgy is possible, and very little chemistry, since water is so good a solvent.
Once they realise they need the exoskeleton trick, or the necessity of some kind of artificial implements, I think the best route left to our cephalopods might be to breed clams to produce mother-of-pearl and aragonite shapes, and others to dissolve them or weld them together. Then, they can start making exoskeletons out of interlocking, welded mother-of-pearl parts.
I fear it will be a long and frustrating road.
Then, they meet the land-dwelling species and basically breed and enhance them, until they discover fire. And, after long experimentations (cephalopods are fascinated by fire), they discover metals. Tin, copper, bronze, iron.
At this point the exoskeletons will be made of metal struts and mother-of-pearl, and by the time they discover space travel, chances are that they're mostly using battery-powered exoskeletons.
Unless there is some non-technological way of achieving space travel, I'd expect exoskeletons to pre-date space travels by a very large margin.
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
add a comment |
The problem lies in how and what to build the exoskeleton out of.
Cephalopods are not really as dexterous as humans are; they might use something like chopsticks, made of crab's claws or something similar, for the fine manipulation.
Underwater, no metallurgy is possible, and very little chemistry, since water is so good a solvent.
Once they realise they need the exoskeleton trick, or the necessity of some kind of artificial implements, I think the best route left to our cephalopods might be to breed clams to produce mother-of-pearl and aragonite shapes, and others to dissolve them or weld them together. Then, they can start making exoskeletons out of interlocking, welded mother-of-pearl parts.
I fear it will be a long and frustrating road.
Then, they meet the land-dwelling species and basically breed and enhance them, until they discover fire. And, after long experimentations (cephalopods are fascinated by fire), they discover metals. Tin, copper, bronze, iron.
At this point the exoskeletons will be made of metal struts and mother-of-pearl, and by the time they discover space travel, chances are that they're mostly using battery-powered exoskeletons.
Unless there is some non-technological way of achieving space travel, I'd expect exoskeletons to pre-date space travels by a very large margin.
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
add a comment |
The problem lies in how and what to build the exoskeleton out of.
Cephalopods are not really as dexterous as humans are; they might use something like chopsticks, made of crab's claws or something similar, for the fine manipulation.
Underwater, no metallurgy is possible, and very little chemistry, since water is so good a solvent.
Once they realise they need the exoskeleton trick, or the necessity of some kind of artificial implements, I think the best route left to our cephalopods might be to breed clams to produce mother-of-pearl and aragonite shapes, and others to dissolve them or weld them together. Then, they can start making exoskeletons out of interlocking, welded mother-of-pearl parts.
I fear it will be a long and frustrating road.
Then, they meet the land-dwelling species and basically breed and enhance them, until they discover fire. And, after long experimentations (cephalopods are fascinated by fire), they discover metals. Tin, copper, bronze, iron.
At this point the exoskeletons will be made of metal struts and mother-of-pearl, and by the time they discover space travel, chances are that they're mostly using battery-powered exoskeletons.
Unless there is some non-technological way of achieving space travel, I'd expect exoskeletons to pre-date space travels by a very large margin.
The problem lies in how and what to build the exoskeleton out of.
Cephalopods are not really as dexterous as humans are; they might use something like chopsticks, made of crab's claws or something similar, for the fine manipulation.
Underwater, no metallurgy is possible, and very little chemistry, since water is so good a solvent.
Once they realise they need the exoskeleton trick, or the necessity of some kind of artificial implements, I think the best route left to our cephalopods might be to breed clams to produce mother-of-pearl and aragonite shapes, and others to dissolve them or weld them together. Then, they can start making exoskeletons out of interlocking, welded mother-of-pearl parts.
I fear it will be a long and frustrating road.
Then, they meet the land-dwelling species and basically breed and enhance them, until they discover fire. And, after long experimentations (cephalopods are fascinated by fire), they discover metals. Tin, copper, bronze, iron.
At this point the exoskeletons will be made of metal struts and mother-of-pearl, and by the time they discover space travel, chances are that they're mostly using battery-powered exoskeletons.
Unless there is some non-technological way of achieving space travel, I'd expect exoskeletons to pre-date space travels by a very large margin.
edited 22 mins ago
answered 2 hours ago
LSerni
25.7k24482
25.7k24482
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
add a comment |
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
Why cant the ask any of the other space faring civilizations for the exoskeleton?
– Soan
2 hours ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
I love the idea of custom built mother-of-pearl suits.
– Cyn
1 hour ago
add a comment |
Yes it would work with three things to consider:
Stability The cephalopods will probably have to learn for months how to use the exoskeleton without falling over. For varying steepness and such they will probably need a year or even more.
Oxygen They somehow need access to oxygen while on land which probably requires something like water tanks attached around them or something similar.
Water The inside of the exoskeleton needs water to keep them nice and wet and prvent drying out.
New contributor
add a comment |
Yes it would work with three things to consider:
Stability The cephalopods will probably have to learn for months how to use the exoskeleton without falling over. For varying steepness and such they will probably need a year or even more.
Oxygen They somehow need access to oxygen while on land which probably requires something like water tanks attached around them or something similar.
Water The inside of the exoskeleton needs water to keep them nice and wet and prvent drying out.
New contributor
add a comment |
Yes it would work with three things to consider:
Stability The cephalopods will probably have to learn for months how to use the exoskeleton without falling over. For varying steepness and such they will probably need a year or even more.
Oxygen They somehow need access to oxygen while on land which probably requires something like water tanks attached around them or something similar.
Water The inside of the exoskeleton needs water to keep them nice and wet and prvent drying out.
New contributor
Yes it would work with three things to consider:
Stability The cephalopods will probably have to learn for months how to use the exoskeleton without falling over. For varying steepness and such they will probably need a year or even more.
Oxygen They somehow need access to oxygen while on land which probably requires something like water tanks attached around them or something similar.
Water The inside of the exoskeleton needs water to keep them nice and wet and prvent drying out.
New contributor
New contributor
answered 2 hours ago
Soan
37611
37611
New contributor
New contributor
add a comment |
add a comment |
I don't see why this wouldn't be feasible. The simplest incarnation of some sort of exoskeleton would probably just be a few strong sticks that the cephalopod grasps with its tentacles. It wouldn't be that different from how we use crutches or stilts to lift ourselves. If the cephalopods are anything like what we have on Earth they should have no trouble wrapping their tentacles around a piece of wood or metal and lifting their own body weight without any additional mechanical help. Using four tentacles to grab four walking sticks would still leave an eight-tentacled cephalopod with plenty of appendages for holding and grabbing and manipulating its surroundings.
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
add a comment |
I don't see why this wouldn't be feasible. The simplest incarnation of some sort of exoskeleton would probably just be a few strong sticks that the cephalopod grasps with its tentacles. It wouldn't be that different from how we use crutches or stilts to lift ourselves. If the cephalopods are anything like what we have on Earth they should have no trouble wrapping their tentacles around a piece of wood or metal and lifting their own body weight without any additional mechanical help. Using four tentacles to grab four walking sticks would still leave an eight-tentacled cephalopod with plenty of appendages for holding and grabbing and manipulating its surroundings.
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
add a comment |
I don't see why this wouldn't be feasible. The simplest incarnation of some sort of exoskeleton would probably just be a few strong sticks that the cephalopod grasps with its tentacles. It wouldn't be that different from how we use crutches or stilts to lift ourselves. If the cephalopods are anything like what we have on Earth they should have no trouble wrapping their tentacles around a piece of wood or metal and lifting their own body weight without any additional mechanical help. Using four tentacles to grab four walking sticks would still leave an eight-tentacled cephalopod with plenty of appendages for holding and grabbing and manipulating its surroundings.
I don't see why this wouldn't be feasible. The simplest incarnation of some sort of exoskeleton would probably just be a few strong sticks that the cephalopod grasps with its tentacles. It wouldn't be that different from how we use crutches or stilts to lift ourselves. If the cephalopods are anything like what we have on Earth they should have no trouble wrapping their tentacles around a piece of wood or metal and lifting their own body weight without any additional mechanical help. Using four tentacles to grab four walking sticks would still leave an eight-tentacled cephalopod with plenty of appendages for holding and grabbing and manipulating its surroundings.
answered 2 hours ago
Mike Nichols
8,01552870
8,01552870
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
add a comment |
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
The image of octopuses on stilts is delightful. It also isn't too different from my own idea of a stone age suit equivalent that uses thick marine mammal bones and seal or shark skin straps to tie it all together and support the alien.
– MetalJimmor
2 hours ago
add a comment |
This species, early in their history, would have to develop an understanding that their advancement is limited by their environment.
By saying the world is mostly covered in oceans, I would assume that there is some dry land somewhere. Around that dry land, a branch of this species would develop a form of amphibious abilities or tactics to crawl on land to develop the technologies to gain an advantage over other species or their own kind. This would be metallurgy and chemistry as others have pointed out that would be difficult (not necessarily impossible) to develop. They may have got an understanding of metallurgy around geothermal vents. needing a safer place to advance this ideas, the land and air would be the solution. The race that either develops the strength to crawl on land or develop a crude tool to assist them, such as an exoskeleton or crutches.
The race that manage to get on shore would become the dominate society and what ever method they used to accomplish this would be further developed and improved on over t
New contributor
add a comment |
This species, early in their history, would have to develop an understanding that their advancement is limited by their environment.
By saying the world is mostly covered in oceans, I would assume that there is some dry land somewhere. Around that dry land, a branch of this species would develop a form of amphibious abilities or tactics to crawl on land to develop the technologies to gain an advantage over other species or their own kind. This would be metallurgy and chemistry as others have pointed out that would be difficult (not necessarily impossible) to develop. They may have got an understanding of metallurgy around geothermal vents. needing a safer place to advance this ideas, the land and air would be the solution. The race that either develops the strength to crawl on land or develop a crude tool to assist them, such as an exoskeleton or crutches.
The race that manage to get on shore would become the dominate society and what ever method they used to accomplish this would be further developed and improved on over t
New contributor
add a comment |
This species, early in their history, would have to develop an understanding that their advancement is limited by their environment.
By saying the world is mostly covered in oceans, I would assume that there is some dry land somewhere. Around that dry land, a branch of this species would develop a form of amphibious abilities or tactics to crawl on land to develop the technologies to gain an advantage over other species or their own kind. This would be metallurgy and chemistry as others have pointed out that would be difficult (not necessarily impossible) to develop. They may have got an understanding of metallurgy around geothermal vents. needing a safer place to advance this ideas, the land and air would be the solution. The race that either develops the strength to crawl on land or develop a crude tool to assist them, such as an exoskeleton or crutches.
The race that manage to get on shore would become the dominate society and what ever method they used to accomplish this would be further developed and improved on over t
New contributor
This species, early in their history, would have to develop an understanding that their advancement is limited by their environment.
By saying the world is mostly covered in oceans, I would assume that there is some dry land somewhere. Around that dry land, a branch of this species would develop a form of amphibious abilities or tactics to crawl on land to develop the technologies to gain an advantage over other species or their own kind. This would be metallurgy and chemistry as others have pointed out that would be difficult (not necessarily impossible) to develop. They may have got an understanding of metallurgy around geothermal vents. needing a safer place to advance this ideas, the land and air would be the solution. The race that either develops the strength to crawl on land or develop a crude tool to assist them, such as an exoskeleton or crutches.
The race that manage to get on shore would become the dominate society and what ever method they used to accomplish this would be further developed and improved on over t
New contributor
New contributor
answered 4 mins ago
Sonvar
11
11
New contributor
New contributor
add a comment |
add a comment |
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What size and weight do your cephalopods have? Also what size are the tentacles in comparison to the body?
– Soan
2 hours ago
It varies. For now we can assume comparable to a human in size but significantly lighter in weight without the exoskeleton. The Giant Pacific Octopus can get up to 14 feet long and only weighs 33 pounds and max out around 20 feet long and 110 pounds. We can use that as a baseline.
– MetalJimmor
2 hours ago