No Iron for your fair-folk maiden? (Part 1: alkaline)No iron for your fair-folk maiden? (Part 2: Radioactive metals)No iron for your fair-folk maiden? (Part 3: Iron)No iron for your fair-folk maiden? (Part 4: Silver)Which magical creatures would you choose for your army?How plausible are my metal eating life forms and their impact on civilization?What to name a magic (technicaly mana type) type that runs on emotion?How would Fair Folk-type elves deal with dietary iron?What impact would copper-based blood (haemocyanin) have on a humanoid creature?Help designing which metals are associated with specific magical powers in my magic systemCould an organism have several oxygen transport proteins?No iron for your fair-folk maiden? (Part 2: Radioactive metals)No iron for your fair-folk maiden? (Part 3: Iron)No iron for your fair-folk maiden? (Part 4: Silver)
Grover algorithm for a database search: where is the quantum advantage?
What makes Ada the language of choice for the ISS's safety-critical systems?
How to deal with apathetic co-worker?
Is it possible to 'live off the sea'
1980s live-action movie where individually-coloured nations on clouds fight
What can I, as a user, do about offensive reviews in App Store?
What to do when surprise and a high initiative roll conflict with the narrative?
How did old MS-DOS games utilize various graphic cards?
How to handle self harm scars on the arm in work environment?
Why was the Sega Genesis marketed as a 16-bit console?
Why did the Tesseract "burn" a hole through Red Skull's plane but not Nick Fury's desk?
Does an ice chest packed full of frozen food need ice?
What is the fastest method to figure out which keys contain certain notes?
bash script: "*.jpg" expansion not working as expected inside $(...), for picking a random file
Share calendar details request from manager's manager
How to tell your grandparent to not come to fetch you with their car?
How to construct an hbox with negative height?
What do abbreviations in movie scripts stand for?
How come the nude protesters were not arrested?
PhD - Well known professor or well known school?
Source that a married woman seduced by a “messianic figure” is still permitted to her husband
Winning Strategy for the Magician and his Apprentice
Overlapping String-Blocks
Are there downsides to using std::string as a buffer?
No Iron for your fair-folk maiden? (Part 1: alkaline)
No iron for your fair-folk maiden? (Part 2: Radioactive metals)No iron for your fair-folk maiden? (Part 3: Iron)No iron for your fair-folk maiden? (Part 4: Silver)Which magical creatures would you choose for your army?How plausible are my metal eating life forms and their impact on civilization?What to name a magic (technicaly mana type) type that runs on emotion?How would Fair Folk-type elves deal with dietary iron?What impact would copper-based blood (haemocyanin) have on a humanoid creature?Help designing which metals are associated with specific magical powers in my magic systemCould an organism have several oxygen transport proteins?No iron for your fair-folk maiden? (Part 2: Radioactive metals)No iron for your fair-folk maiden? (Part 3: Iron)No iron for your fair-folk maiden? (Part 4: Silver)
$begingroup$
Excuse the broad question but I couldn’t resist making a metal pun.
So in my universe the Fair Folk encompass a large group of creatures. They live in their own little pocket universe, in which there is very little raw metal. Though they are all quite different, all of them share a few similarities.
- They have a roughly humanoid body plan (emphasis on roughly)
- They are not, nor have they ever been, human
- They are all capable of manipulating ambient energy/internal energy, explaining their magic.
- They are all weak to metals (not the music genre)
Some are weaker to certain types of metals than others, while some are immune to a specific metal, like a leprechaun with its gold. Each metal also causes a different effect on the fair folk which can be broadly broken down into 5 categories.
- Alkaline/alkaloids: React very strongly with Fair Folk tissue.
- Radioactive metals: Supercharge Fair Folk abilities, but rapidly kill them.
- Iron type metals: Cause direct harm (iron causes burning and disrupts powers).
- Silver type metals: Are toxic or drain energy from Fair Folk (silver is toxic)
- Lead type metals: These cause odd effects (lead causes physical weakness, tin blinds them)
Iron type metals are near its group on the periodic table, the same is true for the silver and lead types. Some metals can be two different types at once, and alloys have all the effects of their component metals, but to a lesser extent.
So with all the exposition out of the way here is the question: What could cause the alkaline and alkaloid metals to react so extremely to fair folk tissue?
P.S. I realize there is a lot of information here for this question, but I plan on linking back to it in the future, so I figured I might as well do my explaining now, rather than having to go over all this again later.
biology magic creature-design xenobiology
$endgroup$
|
show 2 more comments
$begingroup$
Excuse the broad question but I couldn’t resist making a metal pun.
So in my universe the Fair Folk encompass a large group of creatures. They live in their own little pocket universe, in which there is very little raw metal. Though they are all quite different, all of them share a few similarities.
- They have a roughly humanoid body plan (emphasis on roughly)
- They are not, nor have they ever been, human
- They are all capable of manipulating ambient energy/internal energy, explaining their magic.
- They are all weak to metals (not the music genre)
Some are weaker to certain types of metals than others, while some are immune to a specific metal, like a leprechaun with its gold. Each metal also causes a different effect on the fair folk which can be broadly broken down into 5 categories.
- Alkaline/alkaloids: React very strongly with Fair Folk tissue.
- Radioactive metals: Supercharge Fair Folk abilities, but rapidly kill them.
- Iron type metals: Cause direct harm (iron causes burning and disrupts powers).
- Silver type metals: Are toxic or drain energy from Fair Folk (silver is toxic)
- Lead type metals: These cause odd effects (lead causes physical weakness, tin blinds them)
Iron type metals are near its group on the periodic table, the same is true for the silver and lead types. Some metals can be two different types at once, and alloys have all the effects of their component metals, but to a lesser extent.
So with all the exposition out of the way here is the question: What could cause the alkaline and alkaloid metals to react so extremely to fair folk tissue?
P.S. I realize there is a lot of information here for this question, but I plan on linking back to it in the future, so I figured I might as well do my explaining now, rather than having to go over all this again later.
biology magic creature-design xenobiology
$endgroup$
3
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
1
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
2
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
1
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
1
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36
|
show 2 more comments
$begingroup$
Excuse the broad question but I couldn’t resist making a metal pun.
So in my universe the Fair Folk encompass a large group of creatures. They live in their own little pocket universe, in which there is very little raw metal. Though they are all quite different, all of them share a few similarities.
- They have a roughly humanoid body plan (emphasis on roughly)
- They are not, nor have they ever been, human
- They are all capable of manipulating ambient energy/internal energy, explaining their magic.
- They are all weak to metals (not the music genre)
Some are weaker to certain types of metals than others, while some are immune to a specific metal, like a leprechaun with its gold. Each metal also causes a different effect on the fair folk which can be broadly broken down into 5 categories.
- Alkaline/alkaloids: React very strongly with Fair Folk tissue.
- Radioactive metals: Supercharge Fair Folk abilities, but rapidly kill them.
- Iron type metals: Cause direct harm (iron causes burning and disrupts powers).
- Silver type metals: Are toxic or drain energy from Fair Folk (silver is toxic)
- Lead type metals: These cause odd effects (lead causes physical weakness, tin blinds them)
Iron type metals are near its group on the periodic table, the same is true for the silver and lead types. Some metals can be two different types at once, and alloys have all the effects of their component metals, but to a lesser extent.
So with all the exposition out of the way here is the question: What could cause the alkaline and alkaloid metals to react so extremely to fair folk tissue?
P.S. I realize there is a lot of information here for this question, but I plan on linking back to it in the future, so I figured I might as well do my explaining now, rather than having to go over all this again later.
biology magic creature-design xenobiology
$endgroup$
Excuse the broad question but I couldn’t resist making a metal pun.
So in my universe the Fair Folk encompass a large group of creatures. They live in their own little pocket universe, in which there is very little raw metal. Though they are all quite different, all of them share a few similarities.
- They have a roughly humanoid body plan (emphasis on roughly)
- They are not, nor have they ever been, human
- They are all capable of manipulating ambient energy/internal energy, explaining their magic.
- They are all weak to metals (not the music genre)
Some are weaker to certain types of metals than others, while some are immune to a specific metal, like a leprechaun with its gold. Each metal also causes a different effect on the fair folk which can be broadly broken down into 5 categories.
- Alkaline/alkaloids: React very strongly with Fair Folk tissue.
- Radioactive metals: Supercharge Fair Folk abilities, but rapidly kill them.
- Iron type metals: Cause direct harm (iron causes burning and disrupts powers).
- Silver type metals: Are toxic or drain energy from Fair Folk (silver is toxic)
- Lead type metals: These cause odd effects (lead causes physical weakness, tin blinds them)
Iron type metals are near its group on the periodic table, the same is true for the silver and lead types. Some metals can be two different types at once, and alloys have all the effects of their component metals, but to a lesser extent.
So with all the exposition out of the way here is the question: What could cause the alkaline and alkaloid metals to react so extremely to fair folk tissue?
P.S. I realize there is a lot of information here for this question, but I plan on linking back to it in the future, so I figured I might as well do my explaining now, rather than having to go over all this again later.
biology magic creature-design xenobiology
biology magic creature-design xenobiology
edited May 27 at 14:58
Nick
asked May 21 at 14:34
NickNick
2,4571031
2,4571031
3
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
1
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
2
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
1
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
1
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36
|
show 2 more comments
3
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
1
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
2
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
1
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
1
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36
3
3
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
1
1
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
2
2
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
1
1
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
1
1
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36
|
show 2 more comments
3 Answers
3
active
oldest
votes
$begingroup$
One source of the strong reaction with alkali and alkali-earth metals could be a high level of weakly bound oxidizers in the Fair Folk flesh. Oxygen is common in our environment, and presumably in theirs as well, if they can breathe our air; chlorine is also fairly common, though not as an atmospheric gas. If their bodies contain any level of fluorine above trace levels, they'd be toxic to humans by touch, so I'll assume that's not the case -- but chlorine, loosely bound (in the form of chloride - ions) would react very vigorously with alkali and alkali earth metals, and also with aluminum and its close relatives.
Get the reaction started, of course, and the water in their bodies will get into the act -- which is what would start things for humans contacting, say, sodium or potassium metal. The presence of high chloride levels would simply make the reaction a bit more initially aggresive.
$endgroup$
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
add a comment |
$begingroup$
Alkaline and alkalis are really reactive metals.
(I assume you mean alkali when you say 'alkaloid', because alkaloids are an organic molecule classification. Alkaloids include morphine.)
I mean, there's really no point in overthinking this. Alkaline & alkaloids, due to their valence shell structures are pretty much dying to react with just about anything to get perfect valence shell structures and become like noble gases. Seriously, drop a stick of pure sodium in water and the stuff explodes. Sodium will even react with helium.
Humans react really strongly to alkali metals. A bar of pure sodium will explode violently in your mouth, form some really nasty compounds and give you burns. If you somehow swallow it, will proceed to melt through your stomach when reacting with stomach acid. Don't do it. And you notice how I keep mentioning sodium? It's the second-least reactive of the alkalis. The real nasty stuff is casesium and francium. (Yes, alkalines are dangerous too - includes stuff like magnesium, radium, and calcium.)
Also, last point.
They are all weak to metals (not the music genre)
This seems like a missed opportunity. I'm not saying you should do it, but this seems like a great foundation for a humorous short story.
$endgroup$
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
add a comment |
$begingroup$
You're asking why alkali metals (i.e. Group 1 on the periodic table: lithium, sodium, potassium, etc.) react strongly to fair folk tissue?
Easy. These metals react very strongly with water. And fair folk, being living creatures, are somewhere around 70% water. Go search YouTube for videos of people dropping alkali metals into water; there's plenty of them.
On contact with water, an alkali metal atom will transfer an electron to a nearby water molecule, creating a metal ion (which is inert), an OH¯ ion (which dissolves into the water, making it alkaline- hence the name "alkali metal"), and a free hydrogen atom. This hydrogen will link together with another hydrogen produced the same way, and leave the solution as hydrogen gas.
Oh, and this reaction also produces a lot of heat. So much so that it can quickly ignite the hydrogen it produces, which will combust with oxygen from the air, producing water vapor and even more heat.
Also, the alkali metals have quite low melting points, meaning that the heat produced by the dissolving metal and the burning hydrogen will soon cause what remains of the metal to melt. The hydrogen bubbles will cause the two liquids to mix in a chaotic and turbulent manner, greatly increasing the surface area of the metal- and therefore the reaction rate. Which, in turn, means more heat, more hydrogen, more turbulence, and more surface area, in an exponentially-increasing loop of positive feedback.
That's called a runaway chemical reaction.
That's also called an explosion.
So, yeah. If you want alkali metals to react violently to fair folk flesh, all you need to do is give your fair folk actual flesh. Don't make them robots or inorganic golems and you'll be fine.
If you also want to include the alkaline-earth metals in that (i.e. Group 2 in the periodic table; beryllium, magnesium, calcium, and the like), you'll need to do a little more work. Although these metals are still quite reactive as metals go, they're not as reactive as the alkali metals. Calcium, strontium, and barium will spontaneously react with water in a manner similar to the alkali metals, though I don't know how explosive this reaction is. Beryllium and magnesium, however, don't do this: instead, they form an insoluble oxide layer on their surface, protecting the metal underneath. If you want fair folk tissue to react violently with these metals, maybe you could have them secrete a strong oxidizer capable of igniting them on contact. ClF3 or FOOF should do it, though these seem like overkill to me, considering that they'll also burn concrete, water, and almost anything else. There's probably something tamer that'll still ignite beryllium and magnesium, perhaps by dissolving the oxide layer I mentioned and exposing the metal underneath.
$endgroup$
add a comment |
Your Answer
StackExchange.ready(function()
var channelOptions =
tags: "".split(" "),
id: "579"
;
initTagRenderer("".split(" "), "".split(" "), channelOptions);
StackExchange.using("externalEditor", function()
// Have to fire editor after snippets, if snippets enabled
if (StackExchange.settings.snippets.snippetsEnabled)
StackExchange.using("snippets", function()
createEditor();
);
else
createEditor();
);
function createEditor()
StackExchange.prepareEditor(
heartbeatType: 'answer',
autoActivateHeartbeat: false,
convertImagesToLinks: false,
noModals: true,
showLowRepImageUploadWarning: true,
reputationToPostImages: null,
bindNavPrevention: true,
postfix: "",
imageUploader:
brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
allowUrls: true
,
noCode: true, onDemand: true,
discardSelector: ".discard-answer"
,immediatelyShowMarkdownHelp:true
);
);
Sign up or log in
StackExchange.ready(function ()
StackExchange.helpers.onClickDraftSave('#login-link');
);
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function ()
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fworldbuilding.stackexchange.com%2fquestions%2f147441%2fno-iron-for-your-fair-folk-maiden-part-1-alkaline%23new-answer', 'question_page');
);
Post as a guest
Required, but never shown
3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
One source of the strong reaction with alkali and alkali-earth metals could be a high level of weakly bound oxidizers in the Fair Folk flesh. Oxygen is common in our environment, and presumably in theirs as well, if they can breathe our air; chlorine is also fairly common, though not as an atmospheric gas. If their bodies contain any level of fluorine above trace levels, they'd be toxic to humans by touch, so I'll assume that's not the case -- but chlorine, loosely bound (in the form of chloride - ions) would react very vigorously with alkali and alkali earth metals, and also with aluminum and its close relatives.
Get the reaction started, of course, and the water in their bodies will get into the act -- which is what would start things for humans contacting, say, sodium or potassium metal. The presence of high chloride levels would simply make the reaction a bit more initially aggresive.
$endgroup$
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
add a comment |
$begingroup$
One source of the strong reaction with alkali and alkali-earth metals could be a high level of weakly bound oxidizers in the Fair Folk flesh. Oxygen is common in our environment, and presumably in theirs as well, if they can breathe our air; chlorine is also fairly common, though not as an atmospheric gas. If their bodies contain any level of fluorine above trace levels, they'd be toxic to humans by touch, so I'll assume that's not the case -- but chlorine, loosely bound (in the form of chloride - ions) would react very vigorously with alkali and alkali earth metals, and also with aluminum and its close relatives.
Get the reaction started, of course, and the water in their bodies will get into the act -- which is what would start things for humans contacting, say, sodium or potassium metal. The presence of high chloride levels would simply make the reaction a bit more initially aggresive.
$endgroup$
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
add a comment |
$begingroup$
One source of the strong reaction with alkali and alkali-earth metals could be a high level of weakly bound oxidizers in the Fair Folk flesh. Oxygen is common in our environment, and presumably in theirs as well, if they can breathe our air; chlorine is also fairly common, though not as an atmospheric gas. If their bodies contain any level of fluorine above trace levels, they'd be toxic to humans by touch, so I'll assume that's not the case -- but chlorine, loosely bound (in the form of chloride - ions) would react very vigorously with alkali and alkali earth metals, and also with aluminum and its close relatives.
Get the reaction started, of course, and the water in their bodies will get into the act -- which is what would start things for humans contacting, say, sodium or potassium metal. The presence of high chloride levels would simply make the reaction a bit more initially aggresive.
$endgroup$
One source of the strong reaction with alkali and alkali-earth metals could be a high level of weakly bound oxidizers in the Fair Folk flesh. Oxygen is common in our environment, and presumably in theirs as well, if they can breathe our air; chlorine is also fairly common, though not as an atmospheric gas. If their bodies contain any level of fluorine above trace levels, they'd be toxic to humans by touch, so I'll assume that's not the case -- but chlorine, loosely bound (in the form of chloride - ions) would react very vigorously with alkali and alkali earth metals, and also with aluminum and its close relatives.
Get the reaction started, of course, and the water in their bodies will get into the act -- which is what would start things for humans contacting, say, sodium or potassium metal. The presence of high chloride levels would simply make the reaction a bit more initially aggresive.
answered May 21 at 14:46
Zeiss IkonZeiss Ikon
4,861924
4,861924
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
add a comment |
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
$begingroup$
I like the prospect of using some really strange biology here!
$endgroup$
– Nick
May 21 at 15:06
3
3
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
$begingroup$
The Chloride would also mean that a number of alkaline oxides and hydroxides that we as humans consider fairly safe and relatively inert would be unexpectedly reactive when handles by the Fair Folk.
$endgroup$
– Ash
May 21 at 15:35
add a comment |
$begingroup$
Alkaline and alkalis are really reactive metals.
(I assume you mean alkali when you say 'alkaloid', because alkaloids are an organic molecule classification. Alkaloids include morphine.)
I mean, there's really no point in overthinking this. Alkaline & alkaloids, due to their valence shell structures are pretty much dying to react with just about anything to get perfect valence shell structures and become like noble gases. Seriously, drop a stick of pure sodium in water and the stuff explodes. Sodium will even react with helium.
Humans react really strongly to alkali metals. A bar of pure sodium will explode violently in your mouth, form some really nasty compounds and give you burns. If you somehow swallow it, will proceed to melt through your stomach when reacting with stomach acid. Don't do it. And you notice how I keep mentioning sodium? It's the second-least reactive of the alkalis. The real nasty stuff is casesium and francium. (Yes, alkalines are dangerous too - includes stuff like magnesium, radium, and calcium.)
Also, last point.
They are all weak to metals (not the music genre)
This seems like a missed opportunity. I'm not saying you should do it, but this seems like a great foundation for a humorous short story.
$endgroup$
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
add a comment |
$begingroup$
Alkaline and alkalis are really reactive metals.
(I assume you mean alkali when you say 'alkaloid', because alkaloids are an organic molecule classification. Alkaloids include morphine.)
I mean, there's really no point in overthinking this. Alkaline & alkaloids, due to their valence shell structures are pretty much dying to react with just about anything to get perfect valence shell structures and become like noble gases. Seriously, drop a stick of pure sodium in water and the stuff explodes. Sodium will even react with helium.
Humans react really strongly to alkali metals. A bar of pure sodium will explode violently in your mouth, form some really nasty compounds and give you burns. If you somehow swallow it, will proceed to melt through your stomach when reacting with stomach acid. Don't do it. And you notice how I keep mentioning sodium? It's the second-least reactive of the alkalis. The real nasty stuff is casesium and francium. (Yes, alkalines are dangerous too - includes stuff like magnesium, radium, and calcium.)
Also, last point.
They are all weak to metals (not the music genre)
This seems like a missed opportunity. I'm not saying you should do it, but this seems like a great foundation for a humorous short story.
$endgroup$
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
add a comment |
$begingroup$
Alkaline and alkalis are really reactive metals.
(I assume you mean alkali when you say 'alkaloid', because alkaloids are an organic molecule classification. Alkaloids include morphine.)
I mean, there's really no point in overthinking this. Alkaline & alkaloids, due to their valence shell structures are pretty much dying to react with just about anything to get perfect valence shell structures and become like noble gases. Seriously, drop a stick of pure sodium in water and the stuff explodes. Sodium will even react with helium.
Humans react really strongly to alkali metals. A bar of pure sodium will explode violently in your mouth, form some really nasty compounds and give you burns. If you somehow swallow it, will proceed to melt through your stomach when reacting with stomach acid. Don't do it. And you notice how I keep mentioning sodium? It's the second-least reactive of the alkalis. The real nasty stuff is casesium and francium. (Yes, alkalines are dangerous too - includes stuff like magnesium, radium, and calcium.)
Also, last point.
They are all weak to metals (not the music genre)
This seems like a missed opportunity. I'm not saying you should do it, but this seems like a great foundation for a humorous short story.
$endgroup$
Alkaline and alkalis are really reactive metals.
(I assume you mean alkali when you say 'alkaloid', because alkaloids are an organic molecule classification. Alkaloids include morphine.)
I mean, there's really no point in overthinking this. Alkaline & alkaloids, due to their valence shell structures are pretty much dying to react with just about anything to get perfect valence shell structures and become like noble gases. Seriously, drop a stick of pure sodium in water and the stuff explodes. Sodium will even react with helium.
Humans react really strongly to alkali metals. A bar of pure sodium will explode violently in your mouth, form some really nasty compounds and give you burns. If you somehow swallow it, will proceed to melt through your stomach when reacting with stomach acid. Don't do it. And you notice how I keep mentioning sodium? It's the second-least reactive of the alkalis. The real nasty stuff is casesium and francium. (Yes, alkalines are dangerous too - includes stuff like magnesium, radium, and calcium.)
Also, last point.
They are all weak to metals (not the music genre)
This seems like a missed opportunity. I'm not saying you should do it, but this seems like a great foundation for a humorous short story.
answered May 21 at 15:01
HalfthawedHalfthawed
1,171111
1,171111
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
add a comment |
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
1
1
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
$begingroup$
That does seem like a missed opportunity doesn’t it.... I might have to revisit that one later, haha
$endgroup$
– Nick
May 21 at 15:03
1
1
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
$begingroup$
Also, what extra effect do you think these metals could have on the fair folk then, besides just being more reactive than they are already?
$endgroup$
– Nick
May 21 at 15:05
2
2
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Silver to drain, lead to bind, iron to kill. That seems like a good trio, so I'll slide alkalis to the other end, where radioactivity seems to be helping the Fair Folk. Possibly a mutagen - but not a normal mutagen. Applying alkali to a Fair Folk will destroy the part it's attached to, but then the alkali can be applied to the destroyed part to form something knew. Perhaps you could expose it to skin to burn it away, but if you keep it there, then the skin will regrow with the alkali as a part of it?
$endgroup$
– Halfthawed
May 21 at 15:15
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
$begingroup$
Ahhhh, that’s cool. +1
$endgroup$
– Nick
May 21 at 15:16
add a comment |
$begingroup$
You're asking why alkali metals (i.e. Group 1 on the periodic table: lithium, sodium, potassium, etc.) react strongly to fair folk tissue?
Easy. These metals react very strongly with water. And fair folk, being living creatures, are somewhere around 70% water. Go search YouTube for videos of people dropping alkali metals into water; there's plenty of them.
On contact with water, an alkali metal atom will transfer an electron to a nearby water molecule, creating a metal ion (which is inert), an OH¯ ion (which dissolves into the water, making it alkaline- hence the name "alkali metal"), and a free hydrogen atom. This hydrogen will link together with another hydrogen produced the same way, and leave the solution as hydrogen gas.
Oh, and this reaction also produces a lot of heat. So much so that it can quickly ignite the hydrogen it produces, which will combust with oxygen from the air, producing water vapor and even more heat.
Also, the alkali metals have quite low melting points, meaning that the heat produced by the dissolving metal and the burning hydrogen will soon cause what remains of the metal to melt. The hydrogen bubbles will cause the two liquids to mix in a chaotic and turbulent manner, greatly increasing the surface area of the metal- and therefore the reaction rate. Which, in turn, means more heat, more hydrogen, more turbulence, and more surface area, in an exponentially-increasing loop of positive feedback.
That's called a runaway chemical reaction.
That's also called an explosion.
So, yeah. If you want alkali metals to react violently to fair folk flesh, all you need to do is give your fair folk actual flesh. Don't make them robots or inorganic golems and you'll be fine.
If you also want to include the alkaline-earth metals in that (i.e. Group 2 in the periodic table; beryllium, magnesium, calcium, and the like), you'll need to do a little more work. Although these metals are still quite reactive as metals go, they're not as reactive as the alkali metals. Calcium, strontium, and barium will spontaneously react with water in a manner similar to the alkali metals, though I don't know how explosive this reaction is. Beryllium and magnesium, however, don't do this: instead, they form an insoluble oxide layer on their surface, protecting the metal underneath. If you want fair folk tissue to react violently with these metals, maybe you could have them secrete a strong oxidizer capable of igniting them on contact. ClF3 or FOOF should do it, though these seem like overkill to me, considering that they'll also burn concrete, water, and almost anything else. There's probably something tamer that'll still ignite beryllium and magnesium, perhaps by dissolving the oxide layer I mentioned and exposing the metal underneath.
$endgroup$
add a comment |
$begingroup$
You're asking why alkali metals (i.e. Group 1 on the periodic table: lithium, sodium, potassium, etc.) react strongly to fair folk tissue?
Easy. These metals react very strongly with water. And fair folk, being living creatures, are somewhere around 70% water. Go search YouTube for videos of people dropping alkali metals into water; there's plenty of them.
On contact with water, an alkali metal atom will transfer an electron to a nearby water molecule, creating a metal ion (which is inert), an OH¯ ion (which dissolves into the water, making it alkaline- hence the name "alkali metal"), and a free hydrogen atom. This hydrogen will link together with another hydrogen produced the same way, and leave the solution as hydrogen gas.
Oh, and this reaction also produces a lot of heat. So much so that it can quickly ignite the hydrogen it produces, which will combust with oxygen from the air, producing water vapor and even more heat.
Also, the alkali metals have quite low melting points, meaning that the heat produced by the dissolving metal and the burning hydrogen will soon cause what remains of the metal to melt. The hydrogen bubbles will cause the two liquids to mix in a chaotic and turbulent manner, greatly increasing the surface area of the metal- and therefore the reaction rate. Which, in turn, means more heat, more hydrogen, more turbulence, and more surface area, in an exponentially-increasing loop of positive feedback.
That's called a runaway chemical reaction.
That's also called an explosion.
So, yeah. If you want alkali metals to react violently to fair folk flesh, all you need to do is give your fair folk actual flesh. Don't make them robots or inorganic golems and you'll be fine.
If you also want to include the alkaline-earth metals in that (i.e. Group 2 in the periodic table; beryllium, magnesium, calcium, and the like), you'll need to do a little more work. Although these metals are still quite reactive as metals go, they're not as reactive as the alkali metals. Calcium, strontium, and barium will spontaneously react with water in a manner similar to the alkali metals, though I don't know how explosive this reaction is. Beryllium and magnesium, however, don't do this: instead, they form an insoluble oxide layer on their surface, protecting the metal underneath. If you want fair folk tissue to react violently with these metals, maybe you could have them secrete a strong oxidizer capable of igniting them on contact. ClF3 or FOOF should do it, though these seem like overkill to me, considering that they'll also burn concrete, water, and almost anything else. There's probably something tamer that'll still ignite beryllium and magnesium, perhaps by dissolving the oxide layer I mentioned and exposing the metal underneath.
$endgroup$
add a comment |
$begingroup$
You're asking why alkali metals (i.e. Group 1 on the periodic table: lithium, sodium, potassium, etc.) react strongly to fair folk tissue?
Easy. These metals react very strongly with water. And fair folk, being living creatures, are somewhere around 70% water. Go search YouTube for videos of people dropping alkali metals into water; there's plenty of them.
On contact with water, an alkali metal atom will transfer an electron to a nearby water molecule, creating a metal ion (which is inert), an OH¯ ion (which dissolves into the water, making it alkaline- hence the name "alkali metal"), and a free hydrogen atom. This hydrogen will link together with another hydrogen produced the same way, and leave the solution as hydrogen gas.
Oh, and this reaction also produces a lot of heat. So much so that it can quickly ignite the hydrogen it produces, which will combust with oxygen from the air, producing water vapor and even more heat.
Also, the alkali metals have quite low melting points, meaning that the heat produced by the dissolving metal and the burning hydrogen will soon cause what remains of the metal to melt. The hydrogen bubbles will cause the two liquids to mix in a chaotic and turbulent manner, greatly increasing the surface area of the metal- and therefore the reaction rate. Which, in turn, means more heat, more hydrogen, more turbulence, and more surface area, in an exponentially-increasing loop of positive feedback.
That's called a runaway chemical reaction.
That's also called an explosion.
So, yeah. If you want alkali metals to react violently to fair folk flesh, all you need to do is give your fair folk actual flesh. Don't make them robots or inorganic golems and you'll be fine.
If you also want to include the alkaline-earth metals in that (i.e. Group 2 in the periodic table; beryllium, magnesium, calcium, and the like), you'll need to do a little more work. Although these metals are still quite reactive as metals go, they're not as reactive as the alkali metals. Calcium, strontium, and barium will spontaneously react with water in a manner similar to the alkali metals, though I don't know how explosive this reaction is. Beryllium and magnesium, however, don't do this: instead, they form an insoluble oxide layer on their surface, protecting the metal underneath. If you want fair folk tissue to react violently with these metals, maybe you could have them secrete a strong oxidizer capable of igniting them on contact. ClF3 or FOOF should do it, though these seem like overkill to me, considering that they'll also burn concrete, water, and almost anything else. There's probably something tamer that'll still ignite beryllium and magnesium, perhaps by dissolving the oxide layer I mentioned and exposing the metal underneath.
$endgroup$
You're asking why alkali metals (i.e. Group 1 on the periodic table: lithium, sodium, potassium, etc.) react strongly to fair folk tissue?
Easy. These metals react very strongly with water. And fair folk, being living creatures, are somewhere around 70% water. Go search YouTube for videos of people dropping alkali metals into water; there's plenty of them.
On contact with water, an alkali metal atom will transfer an electron to a nearby water molecule, creating a metal ion (which is inert), an OH¯ ion (which dissolves into the water, making it alkaline- hence the name "alkali metal"), and a free hydrogen atom. This hydrogen will link together with another hydrogen produced the same way, and leave the solution as hydrogen gas.
Oh, and this reaction also produces a lot of heat. So much so that it can quickly ignite the hydrogen it produces, which will combust with oxygen from the air, producing water vapor and even more heat.
Also, the alkali metals have quite low melting points, meaning that the heat produced by the dissolving metal and the burning hydrogen will soon cause what remains of the metal to melt. The hydrogen bubbles will cause the two liquids to mix in a chaotic and turbulent manner, greatly increasing the surface area of the metal- and therefore the reaction rate. Which, in turn, means more heat, more hydrogen, more turbulence, and more surface area, in an exponentially-increasing loop of positive feedback.
That's called a runaway chemical reaction.
That's also called an explosion.
So, yeah. If you want alkali metals to react violently to fair folk flesh, all you need to do is give your fair folk actual flesh. Don't make them robots or inorganic golems and you'll be fine.
If you also want to include the alkaline-earth metals in that (i.e. Group 2 in the periodic table; beryllium, magnesium, calcium, and the like), you'll need to do a little more work. Although these metals are still quite reactive as metals go, they're not as reactive as the alkali metals. Calcium, strontium, and barium will spontaneously react with water in a manner similar to the alkali metals, though I don't know how explosive this reaction is. Beryllium and magnesium, however, don't do this: instead, they form an insoluble oxide layer on their surface, protecting the metal underneath. If you want fair folk tissue to react violently with these metals, maybe you could have them secrete a strong oxidizer capable of igniting them on contact. ClF3 or FOOF should do it, though these seem like overkill to me, considering that they'll also burn concrete, water, and almost anything else. There's probably something tamer that'll still ignite beryllium and magnesium, perhaps by dissolving the oxide layer I mentioned and exposing the metal underneath.
answered May 21 at 16:43
Someone Else 37Someone Else 37
3,5541416
3,5541416
add a comment |
add a comment |
Thanks for contributing an answer to Worldbuilding Stack Exchange!
- Please be sure to answer the question. Provide details and share your research!
But avoid …
- Asking for help, clarification, or responding to other answers.
- Making statements based on opinion; back them up with references or personal experience.
Use MathJax to format equations. MathJax reference.
To learn more, see our tips on writing great answers.
Sign up or log in
StackExchange.ready(function ()
StackExchange.helpers.onClickDraftSave('#login-link');
);
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
StackExchange.ready(
function ()
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fworldbuilding.stackexchange.com%2fquestions%2f147441%2fno-iron-for-your-fair-folk-maiden-part-1-alkaline%23new-answer', 'question_page');
);
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function ()
StackExchange.helpers.onClickDraftSave('#login-link');
);
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function ()
StackExchange.helpers.onClickDraftSave('#login-link');
);
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Sign up or log in
StackExchange.ready(function ()
StackExchange.helpers.onClickDraftSave('#login-link');
);
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Sign up using Google
Sign up using Facebook
Sign up using Email and Password
Post as a guest
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
Required, but never shown
3
$begingroup$
Something to consider: If iron is so bad for fair folk, then what do they use instead of hemoglobin? Do fair folk have green colored copper based hemocyanin instead or is copper just as bad?
$endgroup$
– Algebraist
May 21 at 20:22
1
$begingroup$
So....Alkaloids - funk metal. Radiation - viking metal. Silver - death metal. Lead - Christian metal.
$endgroup$
– boxcartenant
May 21 at 21:00
2
$begingroup$
Err, what about lanthanides?
$endgroup$
– Shalvenay
May 21 at 23:01
1
$begingroup$
I’ve been thinking about possible other biologies for these creatures, or if it would make sense for iron to hurt them but hemoglobin not to. Copper I actually have as a paralytic. In my haste I also completely forgot that most lanthanides are non-radioactive, so I would appreciate ideas there. And finally, I think you’ve given me a new hobby boxcartenant, giving metals their own genre of metal. I love it!
$endgroup$
– Nick
May 22 at 2:09
1
$begingroup$
Can I suggest you edit the question titles! Mention in the question title the difference between the various linked questions rather than just "part 1", "part 2" etc. For example something along these lines, No Iron for your Fair Folk Maiden (Part 1 - Alkaloids) and No Iron for your Fair Folk Maiden (Part 2 - Radioactivity) etc.
$endgroup$
– EveryBitHelps
May 27 at 14:36